THE ECONOMIC IMPACTS
OF
HARMONIZING ORGANIC
STANDARDS INTERNATIONALLY
A Thesis Submitted to the College
of Graduate Studies and Research
in Partial Fulfillment of the Requirements
for the Degree of Master of Science
in the Department of Agricultural Economics
University of Saskatchewan
Saskatoon
By
ERIN N. SAWYER
© Copyright Erin Sawyer, August 2004. All rights reserved.
PERMISSION TO USE
In presenting this thesis in partial fulfillment of the requirements for a
Postgraduate degree from the University of Saskatchewan, I agree that the Libraries
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permission for copying of this thesis in any manner, in whole or in part, for scholarly
purposes may be granted by the professor or professors who supervised my thesis
work or, in their absence, by the Head of the Department or the Dean of the College
in which my thesis work was done. It is understood that any copying or publication
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whole or part should be addressed to:
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S7N 5A8
i
ABSTRACT
Sawyer, Erin N., M.Sc. University of Saskatchewan, Saskatoon, August 2004. The economic impacts of harmonizing organic standards internationally.Supervisor: William A. Kerr
Global trade in organic products is increasing. Organic standards are
necessary in order to prevent fraudulent claims by producers, however these same
standards can inhibit trade. Harmonization of organic standards has been suggested
as a means to promote the organic industry and enhance trade in organic products.
An examination of the economic literature illustrates the lack of research in the area
of harmonization of production and processing methods and its welfare impacts.
Many are calling for the harmonization of standards, however there has been
little economic analysis of the resulting global welfare changes. Based on a
theoretical model and simulation, it is proposed that harmonization of organic
standards internationally may not improve global welfare and in fact may cause a
decrease in demand for organic goods due to differing consumer beliefs.
A survey was conducted to determine consumer preferences for different
organic standards. Consumers were interviewed in the UK, the US and Canada. A
conjoint analysis was completed and the results were compared.
The results of the conjoint analysis indicate that there is no statistical
difference between the preferences of consumers in all three regions. Thus consumer
beliefs should not inhibit the harmonization of organic standards. However, the
theoretical model suggests that if harmonization is to be pursued that the standard
should be chosen to reflect the most lenient standard.
ii
ACKNOWLEDGEMENTS
I would like to thank Dr. William A. Kerr for his support, guidance and
encouragement during this project. I would also like to thank my committee, Simon
Weseen and Jill E. Hobbs for their contributions and assistance, and Wayne R.
Robinson, my external examiner.
I have received support from numerous other people who I would also like to
mention and thank. Dr. Nick Perdikis for his assistance in Aberystwyth. Shannon
Hall for her help in conducting the surveys in Vancouver. Sîan, Lindsay and Karen
for their assistance with the surveying in Aberystwyth. Andrea Brocklebank, my
officemate, for allowing me to test thoughts and ideas, and for being a good friend.
This project involved surveying consumers at various store fronts, I would
like to take this opportunity to thank all the stores who permitted us to conduct the
survey on their premises – Safeway at Circle and 8th (Saskatoon), Steep Hill Food
Coop Ltd. (Saskatoon), the Saskatoon Farmer’s Market, Caper’s Community Market
on 4th (Vancouver), Choices Market on 16th (Vancouver), Larry’s Market in Queen
Anne (Seattle), Puget Consumer Coop in Issaquah (Seattle), the Treehouse Organic
foodshop (Aberystwyth) and Safeway in Aberystwth.
In addition I would like to say a heartfelt thanks to Ben, my family, friends
and Ben’s family for all their support and love.
Finally, I would like to acknowledge my fellow graduate students, the faculty
and staff in the Department of Agricultural Economics at the University of
Saskatchewan for all their knowledge, support and friendship.
iii
DEDICATION
I would like to dedicate this thesis to my best friend and love, Ben, who has
always encouraged me to achieve my dreams.
I would also like to dedicate this thesis to my family who have always
supported me in my endeavours.
iv
TABLE OF CONTENTS
PERMISSION TO USE..............................................................................................i
ABSTRACT................................................................................................................ii
ACKNOWLEDGEMENTS.....................................................................................iii
DEDICATION..........................................................................................................iv
TABLE OF CONTENTS..........................................................................................v
LIST OF FIGURES..................................................................................................ix
LIST OF TABLES....................................................................................................xi
Chapter 1: Introduction...........................................................................................11.1 Background Information.................................................................................11.2 Problem Statement...........................................................................................21.3 Proposition........................................................................................................31.4 Objectives..........................................................................................................41.5 Thesis Outline...................................................................................................4
Chapter 2: Organic Certification around the Globe..............................................82.1 Introduction......................................................................................................82.2 What is Organic Farming?.............................................................................92.3 Organic Standards.........................................................................................102.4 Organic Certification.....................................................................................132.5 Certification around the World....................................................................16
2.5.1 Australia............................................................................................................................172.5.2 Canada...............................................................................................................................182.5.3 The European Union.........................................................................................................202.5.4 Japan.................................................................................................................................212.5.5 New Zealand.....................................................................................................................232.5.6 The United States..............................................................................................................242.5.7 The US vs. the EU............................................................................................................26
2.6 International Organizations..........................................................................272.6.1 IFOAM..............................................................................................................................272.6.2 Codex Alimentarius Commission.....................................................................................292.6.3 ISO....................................................................................................................................302.6.4 UN/FAO............................................................................................................................31
2.7 Conclusions.....................................................................................................31
Chapter 3: Harmonizing the Organic Industry....................................................333.1 Introduction....................................................................................................333.2 The Question of Harmonized Standards for the Organic Industry..........34
3.2.1 Current Situation...............................................................................................................343.2.2 Arguments for Harmonization..........................................................................................353.2.3 Arguments Against Harmonization..................................................................................37
v
3.2.4 Government Involvement in Harmonization....................................................................393.3 The Economic Study of Harmonization.......................................................40
3.3.1 Non-Tariff Barriers to Trade.............................................................................................403.3.2 Harmonization...................................................................................................................423.3.3 Standardization..................................................................................................................463.3.4 Grading.............................................................................................................................493.3.5 The Theory of Clubs.........................................................................................................50
3.4 Conclusion......................................................................................................52
Chapter 4: Harmonization: A Theoretical Model................................................554.1 Introduction....................................................................................................554.2 The Benchmark..............................................................................................564.3 Equivalency....................................................................................................60
4.3.1 Welfare Effects with Slight Variations in Standards........................................................634.3.2 Welfare Effects with Greater Variation in Standards.......................................................674.3.3 Reversing the Standards....................................................................................................73
4.4 Harmonization................................................................................................754.4.1 Harmonization when the Importer has the Stricter Standard............................................75
4.4.1.1 Scenario 1......................................................................................................................764.4.1.2 Scenario 2......................................................................................................................824.4.1.3 Scenario 3......................................................................................................................89
4.4.2 Harmonization when Exporter has the Strict Standard.....................................................944.5 The Implications of Differing Standards.....................................................974.6 The Effects of Distribution Shape................................................................984.7 Conclusion......................................................................................................99
Chapter 5: Trade Model Simulation....................................................................1015.1 Introduction..................................................................................................1015.2 Market Demand for Organic Products......................................................102
5.2.1 Calculating Market Demand...........................................................................................1025.3 World Trade in Organic Products.............................................................1085.4 The Simulation.............................................................................................112
5.4.1 Scenario 1, Case 1...........................................................................................................1135.5 Results...........................................................................................................122
5.5.1 Scenario 1........................................................................................................................1235.5.1.1 Case 1..........................................................................................................................1235.5.1.2 Case 2..........................................................................................................................1245.5.1.3 Case 3..........................................................................................................................126
5.5.2 Scenario 2........................................................................................................................1275.5.2.1 Case 1..........................................................................................................................1275.5.2.2 Case 2..........................................................................................................................1285.5.2.3 Case 3..........................................................................................................................130
5.5.3 Scenario 3........................................................................................................................1315.5.3.1 Case 1..........................................................................................................................1325.5.3.2 Case 2..........................................................................................................................1335.5.3.3 Case 3..........................................................................................................................134
5.6 Conclusions...................................................................................................135
Chapter 6: Organic Standards and Consumers: An International Comparison..................................................................................................................................1386.1 Introduction..................................................................................................138
vi
6.2 Data Collection.............................................................................................1396.2.1 Survey Locations.............................................................................................................1396.2.2 Respondent Recruitment.................................................................................................141
6.3 Survey Description.......................................................................................1426.4 Results: Identifying Organic Consumers...................................................144
6.4.1 Canada.............................................................................................................................1446.4.2 United States...................................................................................................................1506.4.3 United Kingdom..............................................................................................................1566.4.4 Discussion.......................................................................................................................160
6.5 Conclusion....................................................................................................161
Chapter 7: Developing the Conjoint Model.........................................................1637.1 Introduction..................................................................................................1637.2 Analyzing Consumer Behaviour.................................................................1647.3 Conjoint Measurement................................................................................1667.4 Empirical Applications................................................................................1677.5 The Conjoint Experiment............................................................................168
7.5.1 Attribute Selection..........................................................................................................1717.5.2 Conjoint Composition.....................................................................................................1767.5.3 Conjoint Design..............................................................................................................177
7.6 Reliability and Validity................................................................................1827.7 Summary.......................................................................................................183
Chapter 8: Conjoint Results.................................................................................1848.1 Introduction..................................................................................................1848.2 Conjoint Results...........................................................................................185
8.2.1 Salad................................................................................................................................1858.2.1.1 Canada.........................................................................................................................1868.2.1.2 United States...............................................................................................................1948.2.1.3 The United Kingdom..................................................................................................2018.2.1.4 Consumer Preferences vs. National Standards (Salad)...............................................207
8.2.2 Beef.................................................................................................................................2148.2.2.1 Canada.........................................................................................................................2148.2.2.2 United States...............................................................................................................2218.2.2.3 United Kingdom..........................................................................................................2278.2.2.4 Consumer Preferences vs. National Standards (Beef)................................................2338.2.2.5 Statistical Differences between Consumers in Different Countries (Beef)................235
8.3 Implications..................................................................................................2378.4 Conclusion....................................................................................................238
Chapter 9: Summary and Conclusions................................................................2399.1 Introduction..................................................................................................2399.2 Summary of Research Findings..................................................................241
9.2.1 The Theoretical Trade Model.........................................................................................2419.2.2 Consumer Preference Analysis.......................................................................................243
9.3 Implications for the Organic Industry.......................................................2449.4 Limitations of the Research........................................................................2469.5 Areas for Further Study..............................................................................2479.6 Conclusion....................................................................................................249
vii
LIST OF REFERENCES......................................................................................250
APPENDIX A.........................................................................................................256
APPENDIX B.........................................................................................................270
APPENDIX C.........................................................................................................272
viii
LIST OF FIGURESFigure 4. 1 Autarky.........................................................................................................................57Figure 4. 2 Open Borders................................................................................................................59Figure 4. 3 Graphing the standards (importer stricter)....................................................................62Figure 4. 4 Equivalency: Importing country...................................................................................64Figure 4. 5 Equivalency: World market changes............................................................................65Figure 4. 6 Equivalency: Exporting Country..................................................................................66Figure 4. 7 Wide variation in standards...........................................................................................67Figure 4. 8 Welfare implications in the importing country when standards differ greatly.............69Figure 4. 9 World market effects when standards differ greatly.....................................................71Figure 4. 10 Exporting country when standards differ greatly......................................................72Figure 4. 11 Graphing the standards (exporter - stricter)..............................................................74Figure 4. 12 Harmonizing to the stricter standard: Demand effects in the exporting country......77Figure 4. 13 Harmonizing to the stricter standard: Supply and demand effects in the exporting
country......................................................................................................................80Figure 4. 14 Harmonizing to the stricter standard: Changes to the world price............................81Figure 4. 15 Harmonizing to the stricter standard: Changes in the importing country.................82Figure 4. 16 Harmonizing to the lenient standard: Demand effects in the importing country......84Figure 4. 17 Harmonizing to the lenient standard: Total welfare effects in the importing country. .
...................................................................................................................................85Figure 4. 19 Harmonizing to the lenient standard: Welfare effects in the exporting country.......89Figure 4. 20 Harmonizing to the median standard: Welfare effects in the exporting country......91Figure 4. 21 Harmonizing to the median standard: Welfare effects in the importing country......92Figure 4. 22 Harmonizing to the median standard: World market effects....................................93Figure 4. 23 Consumers with homogeneous tastes.......................................................................98Figure 5.1 A normally distributed population (mean = 1000, s.d.=10)........................................103Figure 5.2 Demand curve estimates (mean = 1000, s.d. =10)......................................................107Figure 5.3 Demand and supply curves in the exporting country..................................................109Figure 5.4 Demand and supply for organic products in the importing country...........................109Figure 5.5 Excess supply and demand curves for various trade scenarios...................................111Figure 5.6 Autarky......................................................................................................................114Figure 5.7 Equivalency: Changes in demand in the importing country......................................115Figure 5.8 Equivalency: World market changes.........................................................................115Figure 5.9 Equivalency:Welfare changes in the exporting country............................................116Figure 5.10 Harmonizing to the stricter standard: Changes in the exporting country..................117Figure 5.11 Harmonizing to the stricter standard: Changes to the world price............................117Figure 5.12 Harmonizing to the stricter standard: Changes to the importing country..................118Figure 5.13 Harmonizing to the lenient standard: Changes in the importing country..................119Figure 5.14 Harmonizing to the lenient standard: World market effects......................................119Figure 5.15 Harmonizing to the lenient standard: Changes in the exporting country...................120Figure 5.16 Harmonizing to the median standard: Changes in the exporting country..................121Figure 5.17 Harmonizing to the median standard: World market effects.....................................121Figure 5.18 Harmonizing to the median standard: Changes in the importing country.................122Figure 6.1 Frequency of organic purchases by Canadian consumers (n=176)...........................147Figure 6.2 Organic purchase motivators for Canadians (n=176)................................................148Figure 6.3 Frequency of organic purchases by US consumers (n=50).......................................153Figure 6.4 Organic purchase motivators for US consumers (n=50)...........................................154Figure 6.5 Frequency of organic purchases by UK consumers (n=100).....................................158Figure 6.6 Organic purchase motivations in the UK (n=100).....................................................159Figure 7.1 Conjoint analysis decision process............................................................................170Figure 7.2 Example of profile presented to survey participants.................................................180Figure 8.1 Relative Importance of Salad Attributes (Canada) (n=90)........................................187Figure 8.2 Relative importance of salad attributes by frequent consumers of organic goods
(Canada) (n= 59)........................................................................................................192
ix
Figure 8.3 Relative importance of salad attributes by occasional consumers of organic goods (Canada) (n=31)..........................................................................................................193
Figure 8.4 Relative importance of salad attributes (US) (n=23).................................................195Figure 8.5 Relative importance of salad attributes by frequent consumers of organic goods (US)
(n=16)..........................................................................................................................199Figure 8.6 Relative importance of salad attributes by occasional consumers of organic goods
(US) (n=9)...................................................................................................................200Figure 8.7 Relative importance of salad attributes (UK) (n=49)................................................202Figure 8.8 Relative importance of attributes for frequent purchasers of organic goods (UK Salad)
(n=34)..........................................................................................................................206Figure 8.9 Relative importance of attributes for occasional purchasers of organic goods (UK
Salad) (n=15)..............................................................................................................207Figure 8.10 Relative importance of beef attributes (Canadian) (n=80)........................................215Figure 8.11 Relative importance of beef attributes by occasional purchasers of organic goods
(Canada) (n=33)..........................................................................................................220Figure 8.12 Relative importance of beef attributes by frequent purchasers of organic goods
(Canada) (n=47).........................................................................................................220Figure 8.13 Relative importance of beef attributes (US) (n=25)...................................................221Figure 8.14 Relative importance of beef attributes by frequent purchasers of organic goods (US)
(n=18)........................................................................................................................226Figure 8.15 Relative importance of beef attributes by occasional purchasers of organic goods (US)
(n=7)..........................................................................................................................226Figure 8.16 Relative importance of beef attributes (UK) (n=48)...................................................228Figure 8.18 Relative importance of beef attributes by frequent purchasers of organic goods (UK)
(n= 23).........................................................................................................................232Figure 8.19 Relative importance of beef attributes by occasional purchasers of organic goods
(UK) (n= 25)..............................................................................................................233
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LIST OF TABLES
Table 4.1 - Welfare effects of equivalency negotiations compared to autarky.....................................73Table 4.2 - Welfare Effects of Harmonization......................................................................................96Table 5.1 - Population and Demand Intercepts (mean = 1000, s.d. =10)...........................................105Table 5.2 - Demand Curve Equations.................................................................................................107Table 5.3 - ES and ED equations........................................................................................................110Table 5.4 – Welfare results of autarky................................................................................................114Table 5.5 – Welfare effects of equivalency in the importing country................................................115Table 5.6 - Welfare results of equivalency in the exporting country..................................................116Table 5.7 – Welfare effects of harmonizing to the stricter standard for the exporter.........................117Table 5.8 – Welfare effects of harmonizing to the stricter standard for the importer........................118Table 5.9 – Welfare effects of harmonizing to the lenient standard for the importer.........................119Table 5.10 – Welfare effects of harmonizing to the lenient standard for the exporter.......................120Table 5.11 - Welfare effects of harmonizing to the median standard for the exporter.......................121Table 5.12 – Welfare effects of harmonizing to the median standard for the importer......................122Table 5.13 - Welfare results for Scenario 1, Case 1, ..............124Table 5.14 - Welfare results for Scenario 1, Case 2,................................................................................
.................................................................................................125Table 5.15 - Welfare results for Scenario 1, Case 3, ..............127Table 5.16 - Welfare results for Scenario 2, Case 1,
.................................................................128Table 5.17 - Welfare results for Scenario 2, Case 2,
..............................................................130Table 5.18 - Welfare results for Scenario 2, Case 3,
..............................................................131Table 5.19 - Welfare results for Scenario 1, Case 1,
................................................................132Table 5.20 - Welfare results for Scenario 3, Case 2,
..............................................................133Table 5.21 - Welfare results for Scenario 3, Case 3,
..............................................................135Table 6.1 - Comparison of Survey and Canadian Populations...........................................................145Table 6.2 - Comparison of survey and US populations......................................................................151Table 6.3 - Comparison of survey and UK populations.....................................................................157Table 7.1- Organic standard attributes and levels...............................................................................173Table 8.1 - Total Utility for the Most Preferred Attribute Combination (Profile 8)...........................188Table 8.2 - Total Utility Calculations for Remaining 7 Profiles.........................................................188Table 8.3 - Consumer Preferences in Segmented Groups (Canadian)................................................192Table 8.4 - Total utility for the most preferred attribute combination (Profile 8)..............................195Table 8.5 - Total utility calculations for remaining 7 profiles............................................................195Table 8.6 - Consumer preferences in segmented groups (US)...........................................................199Table 8.7 - Total utility for the most preferred attribute combination (Profile 8)..............................203Table 8.8 - Total utility calculations for remaining 7 profiles (UK)...................................................203Table 8.9 - Utility values for frequent and occasional consumers of organic goods..........................206Table 8.10 - Country comparisons for the salad attributes.................................................................213Table 8.11 - Total utility for the most preferred attribute combination (Profile 5)............................216Table 8.12 - Total utility calculations for remaining 7 profiles (CAN Beef).....................................216Table 8.13 - Utility values for frequent and occasional consumers of organic goods (Can Beef).....219Table 8.14 -Total utility for the most preferred attribute combination(Profile 5)..............................222
xi
Table 8.15 - Total utility calculations for remaining 7 profiles (US Beef).........................................223Table 8.16 - Utility values for frequent and occasional consumers of organic goods (US Beef).......225Table 8.18 - Total utility for the most preferred attribute combination (Profile 5)............................228Table 8.19 - Total utility calculations for remaining 7 profiles (UK Beef)........................................229Table 8.20 - Utility values for frequent and occasional consumers of organics (UK Beef)...............232Table 8.21 - Country comparisons for the beef attributes...................................................................236
xii
Chapter 1
Introduction
1.1 Background Information
The market for organic products has emerged as an important segment in the
global agricultural economy. As consumer wealth increases, so too does consumer
concern for the environment, food safety and their health. These changes in
consumer preferences have fuelled the growth of the organic industry. Currently, the
market for organic products is concentrated in the European Union (EU), the United
States (US), Canada and Japan, however, the potential for global trade in organic
products is growing.
In order for a product to be labelled “organic” it must pass through a
certification process; which ensures that specific production standards are followed.
Both organic standards and the certification procedures can differ between countries.
The certification system is necessary within the organic industry to assure the
consumer that the product they are purchasing was produced according to specified
organic standards. Difficulties, however, arise when producers attempt to trade their
products across national borders. Due to differences in organic standards and
certification systems, what is considered organic in one country may not be in
another. As a result, international trade and its benefits are inhibited.
1
Due to growing potential markets for organics internationally, the issue of
harmonized organic certification programs among countries has arisen. The
differences in standards and certification procedures can inhibit the development of
international markets and the growth of domestic industries. Producers who wish to
export their organic product may face a series of trade barriers because of the
divergence in standards. Some advocates of the organic industry have been calling
for the harmonization of organic standards and certification processes. It is believed
that harmonization will eliminate trade barriers and advance the organic industry
from its present state; however, little is known about the economic consequences of
harmonizing organic standards.
1.2 Problem Statement
The economic discussion surrounding organic products has been mainly
focused on organic labelling and supply and demand responses to organic foods.
There has also been some discussion of consumer response to the harmonization of
organic standards and the impacts of organic certification. There has not, however,
been any discernable exploration in the economic literature of the welfare
implications of harmonizing organic standards, or for that matter, of harmonization
of production and processing methods.
It is important to understand the impacts of harmonizing organic standards
on both consumers and producers in import and export markets before proceeding
with the harmonization process. Additionally, the consequences of harmonizing to
the more lenient standard, to the stricter standard or to a median standard must all be
examined.
2
In order to evaluate the welfare implications of harmonizing organic
standards, a trade model is constructed to illustrate the changes in supply and
demand if harmonization is pursued. Standards are put in place to meet consumer
demand; therefore it is assumed that standards within a country are established in
order to please the maximum number of consumers. If this standard is changed,
consumers will be dissatisfied with the product. Knowledge of consumer preferences
for organic standards will reveal whether consumers in different countries have
similar or dissimilar predilections for organic standards.
Little research has been done to determine the economic impacts of
harmonizing standards, particularly in terms of process certification schemes. This
study will address the trade and welfare implications of harmonizing organic
standards. It will also identify whether consumers around the world differ in their
preferences for organic standards.
1.3 Proposition
This thesis proposes that harmonizing organic standards and certification
processes may not be beneficial to society. Consumer preferences for their national
standard may prevent harmonization from taking place or may result in decreased
global welfare, should harmonization occur. Imports from a country perceived to
have more lenient organic standards will lower the overall value a consumer places
on the consumption of the product. Producers in the importing country may then
experience a decrease in demand due to the integration of so-called inferior organic
imports and the domestic product. The trade model developed in this thesis, along
with information regarding consumer preferences for organic standards will identify
3
which trade scenarios will be most beneficial to society as a whole, however it is
proposed that harmonization may not enhance global welfare
1.4 Objectives
To test the hypothesis, research into the trade effects of harmonizing
standards, and research to distinguish consumer preferences for organic standards,
will be conducted. This research will include a brief description of the organic
industry and the current state of certification programs; development of a theoretical
two-country trade model; and consumer research through a survey instrument. The
objective of the study is to evaluate the welfare effects of harmonizing organic
standards and of negotiating equivalency; and to determine which option is the most
welfare enhancing. By gathering information on consumer preferences for organic
standards, conclusions can be reached regarding differences in preferences among
populations. For example, significant differences may suggest harmonization across
countries will not be welfare enhancing.
1.5 Thesis Outline
The thesis will develop as follows. Chapter 2 will provide background
information on the need for certification within the organic industry and will
summarize both government and international certification programs around the
world. A description of organic farming and the recent growth trends in the industry
will be followed by a discussion of organic standards. The ability of standards and
labels to reduce transaction costs is an important concept within the organic market.
Labels and standards are necessary, if not sufficient, conditions to ensure consumer
4
faith in the industry. An overview of the certification processes in Canada, the EU,
the US, Australia, New Zealand and Japan will be provided. International
organizations have also played a role in the development of organic standards and
will be examined.
Chapter 3 provides a literature review of the research conducted in the field
of standards harmonization. With increased globalization, standardization is
becoming more common, however little economic research has been done in the
area of harmonization of production and processing methods. Instead, the majority
of harmonization literature has focused on the standardization of physical
components of products and laws. Due to the lack of research in this area, ideas will
be drawn from a wide variety of resources.
In Chapter 4, a theoretical two-country partial equilibrium trade model will
be developed. This model will be the foundation of the study. The impacts of
harmonization on demand and supply in both the importing and exporting countries
will be established and changes in welfare will be calculated. These results will be
compared with the current situation of equivalency negotiations1. The model is
developed by assuming that a population is normally distributed and that a demand
curve can be determined for every person along the distribution. The standard is set
at the mean of the distribution (where the maximum number of consumers is
satisfied). The aggregate demand is the sum of all the individual demand curves. It is
maximized at the mean and any movement away from the mean will result in a
1 Equivalency negotiations are presently occurring between countries as a means to reduce trade barriers. While standards are not identical in an equivalency agreement, they are deemed to be equivalent for the purpose of trade.
5
lower aggregate demand. Using these assumptions, the trade model can be estimated
and welfare calculated.
Chapter 5 develops the theoretical model further by empirically simulating
the impacts of equivalency negotiations and harmonization. This will be done for
several cases and over a range of values to provide a powerful illustration of the
effects. This is not an actual empirical estimation of the economic effects of these
policies for particular markets. Instead the estimations are intended to provide
insight into what may occur if standards change through the process of
harmonization. It is proposed that strong differences in consumer preferences would
not lead to welfare enhancement and hence there is a need for information on
consumer preferences. This led to the development of a consumer survey.
Chapter 6 gives a full description of the consumer survey. The different parts
of the survey are discussed along with explanations of the choice of locations and
respondents. The survey was conducted in three countries: Canada, the US and the
UK. A diverse population base was required to determine if consumers in different
countries differ significantly in their preferences for organic standards. General
attitudinal results are examined. This includes the socio-economic information
obtained from the respondents as well as their knowledge regarding the organic
industry and organic standards within their home country.
Chapter 7 describes the theoretical framework that is used to evaluate
consumer preferences for organic standards using conjoint analysis. Conjoint
analysis is based on the idea that consumers evaluate products based on the bundle
of product attributes that maximizes their utility. In the survey, consumers were
6
asked to rate products based on these attributes. This information can be used to
determine how respondents will react towards any combination of the attributes. A
brief discussion of the foundations of consumer theory will be followed by a
summary of the steps involved in conjoint measurement and in the design of this
experiment.
Chapter 8 provides the conjoint results for all three countries as well as
across segments of the populations. Using the results of the conjoint analysis, it is
possible to determine trade-offs made by respondents as well as to analyze
hypothetical products. Following the data analysis, the results will be used to test the
validity of the hypothesis.
Chapter 9 provides a summary of the results of the research. A discussion of
the conclusions is included. Further opportunities for research are presented.
7
Chapter 2
Organic Certification Around the Globe
2.1 Introduction
Many advocates for organic agriculture claim that international
harmonization of organic standards is needed in order to advance the organic
industry from its present state. They maintain that harmonization will enable greater
gains from trade and will create a truly global organic industry. In order to
understand these harmonization claims, some understanding of organic agriculture
and the current state of certification systems around the world is necessary. This
chapter will provide background information on the need for certification and will
summarize both domestic and international certification programs in various
jurisdictions.
The chapter begins with a brief discussion of organic agriculture and its
evolution. This is followed by an examination of organic standards and the role they
play. The third section of the chapter explains how certification averts market failure
and discusses both the negative and positive aspects of organic certification. The
chapter concludes with an overview of certification systems around the world,
including the role of international organizations in organic certification.
8
2.2 What is Organic Farming?
Organic farming is a production process whose goal is to promote and
enhance ecosystem health by using a balanced choice of crops and implementing
diversified crop rotation systems (Food and Agriculture Organization 2003). The
concept of organic agriculture began in the United Kingdom in the 1930s but had
only limited acceptance until the environmental movement of the 1970s (Browne et
al. 2000). After experiencing a minor boom, the organic market again dropped off
until recently when consumer fears and concerns regarding food safety and pesticide
use began to increase.
The guiding principle of organic agriculture is deeply rooted in ecological
ideals. Agricultural land is viewed as being part of an environmental system of
interconnected, living organisms (Thode Jacobsen 2002). However, organic
agriculture has also tried to progress beyond its environmental roots into the realm
of socially-just production2 (see Browne et al. 2000 for a detailed examination of the
links between organic farming and ethical trade). According to Thode Jacobsen
(2002, p.3), the aim of the organic farmer is to “support and strengthen biological
processes without using technical remedies”; in other words, the use of synthetic
chemicals is forbidden. In organic livestock production the number of animals raised
is directly correlated with the size of the farm and its ability to absorb waste (Thode
Jacobsen 2002). This enables the nutrients to be recycled through the agricultural
system and avoids degradation of the environment.
2 Socially- just production has no determinate definition but, based on the work by Browne et al., 2000, socially-just or ethical agriculture appears to have three focuses: a focus on people (i.e. workers rights and labour standards), a focus on environment with sustainable production being a key component, and a focus on animal welfare and rights.
9
The growth in organic agriculture is reflected in the rate of conversion from
conventional to organic agricultural land. Between 1995 and 2000, the total area of
organic land tripled in Western Europe and the United States (Food and Agriculture
Organization 2003). In 1999, the United Kingdom experienced a 125% increase in
the area of organic agricultural land (Food and Agriculture Organization 2003).
However, despite these dramatic increases in organic land in production, the total
sales of organic products in industrial countries were still less than 2% of total food
sales in 2000 (Food and Agriculture Organization 2003).
2.3 Organic Standards
Organic agriculture is based on a foundation of strict standards with
information pertaining to these standards being conveyed by labels. Why are
standards and labels necessary in organic production? This section attempts to
provide answers to this question. Specifically, standards and labels are discussed in
terms of the role they play in instilling confidence in consumers, lending credibility
to organic claims, providing protection to the organic industry and lowering
transaction costs.
Organic standards differ between nations and regions. Prior to the
involvement of government bodies, private organizations or farmer-based groups
would establish a set of standards with which to guide their production practices.
Generally, these standards were updated as technology and consumer demands
changed. With the involvement of governments, national standards are becoming
more prevalent. These standards can be voluntary or mandatory and most
regulations require producers to be registered with an approved, independent
10
certification body in order to label their product as “organic”. Facilitating trade is the
primary motivation for government involvement in the regulation of organic
standards.
Labels are instruments that convey information to consumers regarding
standards. In the case of organic foods, labels indicate to consumers that a product
was produced using organic techniques. Organic products are credence goods. A
credence good is one where the consumer cannot tell how the product was produced
even after purchase and consumption of the good. Labels are used to inform
consumers of the organic qualities of a product and to justify the price premium that
organic goods receive. Standards and labels can increase consumer confidence in the
organic industry and can help protect and promote the industry.
Without labels there would be no market for organic products. Labelling
allows organic goods to be segregated from their conventional counterparts. This
segregation enables producers to charge a higher price for their organically produced
goods. This price premium is necessary due to the higher costs of production
associated with producing food organically. Despite labelling and standards
requirements, there is still a possibility of mislabelling of goods by conventional
farmers, which creates a need for third party certification. Third party certification
prevents fraudulent claims and is required in order to correct the market failure that
would occur if no labels were used.
Standardization can also help reduce transaction costs. Transaction costs are
those costs that arise over the course of the business transaction. They can be
categorized into information costs, which occur ex ante to the transaction,
11
negotiation costs, which occur during the transaction and monitoring and
enforcement costs, which occur ex post. A common organic standard reduces the
monitoring costs of consumers by clearly defining the term “organic” (McCluskey
2000). If many standards prevail in a market, then consumers must spend time
determining which standard they prefer. A single standard would reduce consumer
confusion and may encourage increased participation in the organic market. These
reductions in transaction costs also apply to importers, as a single standard would
eliminate the need to verify numerous certification standards.
Organic standards differ depending on the technical, philosophical and cost
factors present in a country or region (Lohr and Krissoff 2002). Casella (1996b, p.5)
states that “organic standards reflect the needs of the groups that expressed them”, if
the needs and groups differ, then so will the standards. It is believed that organic
standards should reflect the environmental conditions of the region, therefore what
may be good for a Saskatchewan farmer may not be appropriate for a farmer in Sub-
Saharan Africa. These differences are expected by the organic industry but can limit
access to markets and inhibit international trade.
Standards and labels are necessary, if not sufficient, for the survival of the
organic industry. While a unified or national standard helps protect the term
“organic”, provide information and reduce costs to consumers, the fact that
standards differ across borders may make them difficult to harmonize. Currently,
more emphasis is placed on conferring equivalency rather than harmonization. This
allows goods from different countries to be treated equally even though standards
followed when producing those goods may not be identical. Equivalency
12
negotiations can be costly and time-consuming and the organic industry is
considering alternative means to smooth the flow of trade in organic goods.
2.4 Organic Certification
This section of the chapter discusses the need for organic certification. Both
the negative and positive aspects of certification are examined along with the
certification options available to producers. These options include private vs. public
certification and individual vs. group certification. This will lead into a discussion of
various certification programs around the world.
According to Giannakas (2002), a lack of third party certification will lead to
supply-side failures in the markets for organic foods. These failures are due, in part,
to the credence nature of organic goods. The production of organic food is more
costly than the production of conventional products, hence, if the industry is to
survive it must be able to obtain higher prices in the market. This cost differential
could entice non-organic producers to mislabel their conventional products as
organic in order to cash in on the price premiums. As well, consumers will be aware
of the possibility of mislabelling and may refrain from purchasing organic products
unless some guarantee is provided of the production methods used. Certification by
an independent body enables consumers to verify that a product conforms to specific
standards (Thode Jacobsen 2002).
There are both positive and negative issues surrounding certification.
Certification can add to the credibility of the industry and may help protect
consumers from fraudulent claims. Certification can also lead to lower transaction
costs, especially if a national accreditation body accredits certifiers. Certification
13
lowers transaction costs by reducing information asymmetry within the supply chain
(Weseen 2003). Information asymmetry occurs because, while producers have
knowledge of their production practices, processors and consumers do not.
Certification verifies organic authenticity thus reducing the ex ante search costs.
These lower transaction costs can lead to increased trade and greater opportunities
for producers.
Certification is not always positive; there are also negative consequences for
producers. In 1999, the need for certification was intensified globally as the
European Union insisted that trading nations adhere to the EU 2092/91 rules enacted
in 1993 (Mutersbaugh 2002). If exporters did not comply with EU standards then
their product could not be sold as organic in the EU. This insistence caused a
decrease in the ability of certifiers to accommodate producer interests and EU and
ISO3 certification rules now dominate the industry (Mutersbaugh 2002).
Certification is costly. Organic farmers must incur the increased costs of
having a certification body monitor their production practices (Mutersbaugh 2002).
The organic price premium is now traded off against production, certification and
organization costs (Mutersbaugh 2002). Finally, certification may lead to the
destruction of social movements that support the organic cause (Mutersbaugh 2002).
For example, some consumers are suspicious of government-run labelling and
standards programs and will resist these programs. These suspicions are due to the
perceived ability of agricultural corporations to influence government agendas.
While certification is necessary for trade, trade often implies moving organic goods
3 ISO is an international organization made up of national standards bodies.
14
great distances, which is contrary to the environmental principles that some perceive
organic farming was founded upon4.
As will be seen in the following section, certification programs have evolved
differently around the world. In countries with no national regulatory program,
producers can often choose from many different certifiers each with their own set of
standards. In countries with a national program, producers must choose among
certifiers that have been accredited through the national accreditation body, be it
private or public. Firms can also choose to be certified through foreign entities
(Lohr and Krissoff 2002). Foreign entities can include certification bodies within
importing countries or international certification organizations. In order to increase
market access for their producers, it is quite common for local certification bodies to
have partnerships with international bodies (Thode Jacobsen 2002). This partnership
allows products to flow smoothly across borders.
While most organic food is currently consumed domestically, international
trade in organic products is growing rapidly. This rapid growth has led exporters to
develop improved certification strategies in an attempt to reduce transaction costs.
According to Lohr and Krissoff (2002), these strategies include:
- using an independent local certifier accredited under the international
certification process standards of ISO guide 65 (discussed more fully
later in section 2.6.3)
- using a local branch of an accredited international certifier
4 While the principles of organic farming state that the producer should have a minimal impact on the environment, there are those farmers who produce organic food solely for export markets and thus may not share this principle.
15
- using local certifiers that have partnered with accredited international
entities
- using an international certifier or an entity in the importing country
approved for 3rd party certifications
- subcontracting to processors or distributors certified in the importing
country
Many certification agencies are accredited by a national government body or
an international organization. Accreditation ensures that the certification agency is
complying with the standards it set out to enforce. When a certification agency has
not developed its own standards, it will be accredited by an accreditor whose
standards it has adopted.
Certification systems are a necessary part of the organic agriculture industry.
Certification gives credibility to the claims made by organic producers and in doing
so increases consumer confidence in the organic industry. Without certification, it
would be difficult to verify the production practices of organic producers and the
market would collapse. There are both negative and positive aspects to organic
certification. Due to the necessity of certification, the negative issues are often
overlooked. Reducing certification costs may allow more organic producers to
operate in the industry.
2.5 Certification around the World
Certification programs, like standards, also differ around the world. This
section summarizes the different government certification systems in Australia,
Canada, Japan, New Zealand, the European Union (EU) and the United States (US).
16
These countries were chosen due to their significant role in the world organic
market.
2.5.1 Australia5
The Australian Quarantine and Inspection Service (AQIS), which is a
division of the department of Agriculture, Fisheries and Forestry Australia, oversees
organic certification in Australia. AQIS operates its organic certification program
under the legal framework provided by the Export Control Act of 1982 and the
Export Control Orders of 1997. Australia was one of the first countries to establish
national standards for organics. The National Standards for Organic and Biodynamic
Produce were published in 1992 by the Organic Product Advisory Council (OPAC).
The standards were initially implemented to regulate the export market for organics,
however, in 1998, a second edition was published and implemented that regulated
domestic production and consumption (Australian Quarantine and Inspection
Services 1998). Australia has been granted equivalency status by the EU and is on
the Article 11 list6 .
The certification procedure in Australia proceeds as follows. AQIS approves
and audits private inspection agencies. Each private inspection body submits its own
private standards or “Quality Management Manual” to AQIS who then ensures that
the standards meet the minimum requirements laid out by the National Standards. If
the standards receive the approval of AQIS, the inspection agency is registered as an
“Approved Certifying Organization” and is issued a “Quality Management 5 Information obtained from the European Commission’s 1999 Mission Report, see reference section for details.6 The Article 11 list is a list of countries and certifying agencies that have been granted equivalency by the EU. A more thorough explanation will be given later in section 2.5.3.
17
Certificate”. These certifying organizations are audited annually by AQIS; if the
body is found lacking in some area AQIS will file “Corrective Action Requests”
with the certification agent. In turn, certifying agents also inspect producers
annually, usually around the same time each year and never unannounced.
2.5.2 Canada
The organic market is expanding in Canada. Between 1989 and 1995, the
number of organic producers increased by 300% and annual market growth is
estimated to be between 15-25% (Porter, Phillips and Henry 2001). As a result of the
industry’s growth, Canada implemented a national organic standard in 1999. The
National Standard of Canada for Organic Agriculture differs from most other
government standards in that it is voluntary rather than mandatory. The Canadian
standard is based on the guidelines developed by the Codex Alimentarius
Commission for the “Production, Processing, Marketing and Labelling of
Organically Produced Foods” and the Standards Council of Canada (SCC) uses ISO
65 as its basis for accreditation (Bradley 2002). It should be noted that the Canadian
standards apply only to domestic production and there is no regulation of imported
organics.
Due to the voluntary nature of Canada’s organic standards, there has been
little movement by organic certifiers to become accredited under the national
program. The accreditation costs are high, and there are currently few benefits from
joining the national program. The base application fee is $15,000 CDN. In addition
it costs $1,000 per day for each government employee who works on documents
18
related to the application. If certifying agencies applied prior to December 31, 2003,
they were eligible to receive a 50% reimbursement up to $25,000. After a body has
been approved there is an annual fee of $9,000 plus 0.0025 multiplied by the
certification body’s gross annual revenue, with fees not to exceed $45,000 (Bradley
2002). There are approximately 45 organic certifying organizations practicing in
Canada (Agriculture and Agri-Food Canada 2002). Two provinces, Quebec and
British Columbia, have established provincial accreditation bodies. Certifiers in
these provinces must be accredited with the Certified Organic Associations of
British Columbia or the Conseil d’Accréditation du Québec. Therefore, most
certifiers in these provinces opt out of the national accreditation program due to the
additional costs and the lack of market access it provides (Weseen 2003). The
remainder of the provinces do not have regulations requiring that products labeled
“organic” abide by strict production practices.
Currently, to obtain certification in Canada7, a farmer must complete an
application form that includes specific details of the farm operation. An organic
inspector then inspects the farm. The inspector’s report is passed on to a certification
committee who reviews the file and makes a decision based on the findings. If
approved, the producer is given a producer number to be used on all bills of landing
and labels (Saskatchewan Organic Directorate 2002).
In order to become accredited by the Standards Council of Canada, the
certification body must first make an informal inquiry about becoming accredited.
The certifying body must then submit an application package. There is a pre-
7 This information is from the Saskatchewan Organic Directorate. There may be slight differences across certification bodies-both private and public, i.e. COABC and Conseil d’Accréditation du Québec.
19
assessment and then upon completion of the application the SCC notifies the
applicant of any deficiencies. An on-site assessment is conducted in order to ensure
compliance with the SCC standards. The SCC Director of Conformity Assessment
then reviews the application and decides whether or not to recommend the applicant
to the Board of Directors, with whom the final decision rests.
2.5.3 The European Union
The basic regulations for the European Union’s (EU) organic standards are
laid out in Council Regulation No. 2092/91 which was adopted in June 1991
(European Commission 2001). These standards are fashioned after the International
Federation of Organic Agriculture Movement’s (IFOAM) Basic Standards. Within
the EU, each member state must establish an inspection system that can be run by
either private or public inspection or certification bodies or both (Thode Jacobsen
2002). The Regulation gives guidelines for the production of organic crops in the
European Union (European Commission 2001). Regulation (EEC) No. 1804/1999
applies to organic livestock products (European Commission 2001). Upon
implementation of these regulations by the European Commission it became illegal
to sell non-certified organic products in the EU (Barrett et al. 2002).
There are several ways an organic exporter can sell products in the EU. The
exporter’s domestic government can establish an equivalency agreement with the
EU. Once equivalency has been negotiated, the country will be placed on the Article
11 list (granted third country status). As of July 2002, there were only 7 countries on
this list: Argentina, Australia, Czech Republic, Switzerland, Israel, New Zealand and
20
Hungary (Thode Jacobsen 2002). Until December 31st 2005, organic goods from
countries not on the article 11 list can still be imported into the EU using one of two
methods. Article 11(6) states that individual member countries have the right to
issue import permits for specific consignments from countries not on the article 11
list. Article 11(7) allows a member state to add a ‘third country inspection body’ to
the Article 11 list. This has been interpreted differently by member states, while
some claim that it implies that inspection agencies from countries not on the article
11 list can be approved, others claim that it means that only individual inspection
bodies from countries on the list can be approved (Barrett et al. 2002).
2.5.4 Japan
Japan’s organic market was estimated to be worth US $2.5 billion in retail
sales in 2000 (Food and Agriculture Organization 2003). Organic food in Japan is
classified into three categories: Naturally Grown Chickens, Organic Agricultural
Products and Organic Agricultural Products Processed Food (Japanese Ministry of
Agriculture, Forestry and Fisheries 2000a). In April 2001, the Japanese government
implemented its new organic regulations for plant-based products (Thode Jacobsen
2002). Organic products must carry the mark of the Japanese Agriculture Standard
(JAS) (Thode Jacobsen 2002). Certification bodies must become Registered
Certification Organizations (RCOs) under the Ministry of Agriculture, Forestry and
Fisheries. These RCOs certify production process managers, manufacturers, sub-
dividers and importers. RCOs are required to educate farm managers on the
21
certification and inspection process so that producers can carry out the correct
grading (Japanese Ministry of Agriculture, Forestry and Fisheries 2000a).
In order to qualify to be an inspector or certifier, one must have attained a
certain level of education within a specific field (Japanese Ministry of Agriculture,
Forestry and Fisheries 2000b). Inspectors conduct an initial inspection, as well as
annual inspections. Two or more people are required for inspections, depending on
the size of the site, whereas only one person is needed to judge the application
(Japanese Ministry of Agriculture, Forestry and Fisheries 2000b). If an applicant is
certified, the head of the Certification Organization will issue the certificate
(Japanese Ministry of Agriculture, Forestry and Fisheries 2000a). Certification is
granted for each individual field rather than the farm as a whole. Once a field is
certified, the farmer can raise organic crops (Japanese Ministry of Agriculture,
Forestry and Fisheries 2000a). Oddly, an RCO has the authority to grant certification
standing but does not have the ability to cancel it. In order to cancel a certification,
the organization must report the infraction to the Minister of Agriculture, Forestry
and Fisheries who will then take the appropriate action (Japanese Ministry of
Agriculture, Forestry and Fisheries 2000a).
It is possible for foreign bodies to become Registered Certification
Organizations. However, the organization must be in a country that has negotiated
equivalency with Japan. Both the U.S. and the EU are recognized as being
equivalent by Japan’s MAFF, the EU for organic production and certification and
the US for plant-based organic products. The EU’s standing permits certification
22
bodies to apply for direct recognition of their certification programs, while US
products can be labelled as organic in Japan (Thode Jacobsen 2002).
2.5.5 New Zealand
The organic industry in New Zealand is divided into two sectors; the first
targets the export market and the second, the domestic market (New Zealand
Ministry of Agriculture and Fisheries 1997). There are four certification bodies
within New Zealand, BioGro and AgriQuality certify large organic producers,
Aotearoa certifies small-scale organic producers and Demeter certifies biodynamic
producers (biodynamic agriculture promotes sowing, cultivation and harvesting
timed to cosmic rhythms) (US Foreign Agricultural Service 2000). Both AgriQuality
and BioGro’s certification programs are based on ISO 65 (US Foreign Agricultural
Service 2000).
BioGro’s current certification system involves an annual inspection by an
inspector8. The results of the inspection are then discussed at a meeting of regional
inspectors where decisions are made collectively regarding the certification status of
the property (New Zealand Ministry of Agriculture and Forestry 1997). The Board
of Directors can make changes to the standards at any time, however, every two
years a review is conducted and all participants are invited to submit suggested
revisions (New Zealand Ministry of Agriculture and Forestry 1997).
Until 2001, the government had little involvement with the development of
the organic industry. There were ongoing discussions with the Ministry of
8 There was little information on AgriQuality’s certification program, but as both systems are based on ISO 65, it is expected to be similar
23
Agriculture and Forestry regarding “the need for MAF Regulatory Authority
assistance in providing government to government recognition of the certifying
agencies” (New Zealand Ministry of Agriculture and Forestry 1997). As well, the
Ministry of Commerce and the certification bodies had discussed the need for
protection of the term “organic” in food labelling (New Zealand Ministry of
Agriculture and Forestry 1997).
In March 2001, MAF released a draft of their proposed official assurance
program for organic products (New Zealand Food and Safety Authority 2001). The
program is targeted at organic exports destined for the EU. In 2002, the New
Zealand Food Safety Authority launched its Assurance Programme for Organic
Products (New Zealand Food and Safety Authority 2002). In July 2002, New
Zealand succeeded in gaining third country status with the EU (Thode Jacobsen
2002). This guarantees access to the European market for New Zealand exports.
Japan is also a key market for New Zealand’s exports, and private certification
bodies are trying to create relationships with Japanese certifying organizations to
ensure New Zealand products meet the new Japanese regulations (US Foreign
Agricultural Service 2000).
2.5.6 The United States
The United States’ National Organic Program (NOP) was implemented in
2002. Its rules require all but the smallest producers and handlers (those with under
$5000 in annual sales) to be certified by a state or private accredited certification
body (Economic Research Service 2002). The United States Department of
24
Agriculture will accredit state, private and foreign organizations or persons who
comply with the NOP regulations for the production and certification of organic
agriculture (USDA 2003a).
According to the NOP, a person wishing to receive or maintain organic
certification must have an up-to-date organic production system plan, must permit
on-site inspections, must maintain all applicable records for at least 5 years, and
immediately notify their certification agent if a prohibited substance is applied
(USDA 2003b). An initial inspection is performed, followed by annual inspections
thereafter. The certification body can also conduct additional unannounced
inspections. After the initial inspection the certifying agent will notify the operator if
they have received certification. If they have not, they will receive a notice of
noncompliance or a denial of certification. If a notice of noncompliance is issued the
producer can correct the problem and reapply either with the same certification firm
or with a different agency, however, the notification of noncompliance must be
included in the application. A producer applying for certification is also able to
withdraw their application at any time. Once certified, organic certification will
continue until it is surrendered, suspended or revoked (USDA 2003b).
Since the establishment of the NOP, the US requires that all agricultural
products sold, labelled or represented as organic in the US must be certified by a
USDA accredited certifying agent, with two exceptions. First, foreign government
bodies can apply for USDA Recognition of a Foreign Governments Conformity
Assessment Program. Presently, this recognition has been granted to New Zealand’s
MAF, the Conseil d’Accréditation du Québec, the Certified Organic Associations of
25
British Columbia, UKROFS (United Kingdom Register of Organic Food Standards)
and the government of Denmark (USDA 2003c). There are ongoing negotiations to
permit additional bodies into this category. Second, USDA accreditation is not
needed if equivalency has been determined. The US is presently working to establish
equivalency with four jurisdictions: Japan, the European Union, India and Australia
(USDA 2003c).
2.5.7 The US vs. the EU
The certification processes in the US and the EU are similar; however, there
are several differences in standards that may make it difficult for equivalency to be
established. These include differences in consumer perceptions, differences in
defining terms and differences in the specificity of the standards.
The US primarily focuses on regulating the end organic product. This differs
from the EU approach of regulating the entire production process (Haniotis 2000).
US policies tend to be supply driven (i.e. demanded by the producer), while the EU
policies are driven by consumer demands. There is a great divide between consumer
perceptions of government bodies in the EU and in the US. US consumers tend to
trust the government, while recent food safety scares have led EU consumers to
become more risk averse on issues of food safety and more distrustful of the
government (Haniotis 2000).
There are also differences between production standards. The EU prohibits
growing organic and non-organic crops of the same variety on the same production
unit; the US does not. The NOP requires producers to notify certifiers immediately if
26
prohibited substances are applied; the EU does not. In order to determine what
statement can be used on the label, the US has provided clear guidelines for the
calculation of the “organicness” of the product while the EU does not (Riddle and
Coody 2002). Under the US system, at least 95% of the total ingredients must be
organic; however under EU regulations only 95% of agricultural ingredients must be
organic (Riddle and Coody 2002). This method of calculation may result in products
being labelled organic when less than 95% of the total ingredients are actually
produced organically. Finally, the EU has less specific evaluation criteria for crop
and livestock products than does the US. This lack of specificity could result in less
restrictive criteria.
2.6 International Organizations
If harmonization is the next step in the reduction of trade barriers for organic
goods, then one might expect to see international organizations playing a larger role
in the industry. Already, the International Federation of Organic Agriculture
Movements’ Basic Standards have been used in the formation of national programs
around the world. ISO Guide 65 has also contributed to the development of
certification systems in many nations. This section of the thesis examines the roles
of different international organizations in the development of the organic industry.
2.6.1 IFOAM
The International Federation of Organic Agriculture Movements (IFOAM)
was established in France in 1972. It is a non-profit organization which aims to be a
worldwide umbrella organization of the organic agriculture movement (IFOAM
27
2003). It aims to assist in the exchange of knowledge and expertise, represent the
organic movement internationally, set and revise basic standards and contribute
towards an international guarantee of organic quality (IFOAM 2003). In 1992,
IFOAM established the IFOAM Accreditation Program to accredit certifying bodies
active in certifying organic agriculture throughout the world (Commins 2002). Since
1997, this accreditation program has been run by the International Organic
Accreditation Service (IOAS) an independent accreditation non-profit organization
(Commins 2002). The IOAS is a service company and one of its stated aims is “to
make its services available to outside interested parties including government
agencies involved in the establishment of state and supranational regulations”
(Commins 2002). The IFOAM seal was launched in 1999 and designates the
accreditation status of certification bodies around the world (Commins 2002).
An IOAS inspector will visit certification bodies wishing to become
accredited through the IOAS. The inspection examines the documentation and
workplace of the certifier. Upon receipt of the inspector’s report, an accreditation
committee will be responsible for accreditation decisions and for monitoring the
continued compliance of accredited certification bodies (Commins 2002). There are
several advantages to IFOAM’s accreditation program, the IOAS is able to draw on
expertise from all over the world, it eliminates the worry about how to trust certifiers
in foreign countries and it has no territory (except organic territory) to protect
(Commins 2002).
In October 1999, IFOAM Accredited Certification Bodies signed a multi-
lateral agreement (MLA) that created a mechanism to allow acceptance of products
28
between the various certification bodies (Simmons 2002). The acceptance is based
on the fact that all bodies certified through IFOAM must have standards at least
equivalent to the IFOAM Basic Standards (Simmons 2002). All signatories of this
agreement have agreed to process request for exchanges of organic products within
48 hours. This MLA is a first step towards harmonization of organic certification
systems.
2.6.2 Codex Alimentarius Commission
The Codex Alimentarius Commission was established in 1962 as a joint
Food and Agricultural Organization (FAO)/World Health Organization (WHO)
intergovernmental body. Its objectives include protecting consumer health and
facilitating international trade in food through the harmonization of food standards
(Doyran 2002). The term Codex Alimentarius is Latin meaning food law or code.
The Codex is a consortium of scientists from all over the world who work together
to establish international standards. The Technical Barriers to Trade Agreement of
the World Trade Organization requires member countries to harmonize national
standards with international standards when they exist. There are, however,
exceptions to this provision. For example, adoption is not expected when the
international standard would be inappropriate or ineffective in the national setting
(Doyran 2002). It is understood among member countries that the WTO may use
these guidelines established by the Codex to settle trade disputes over differing
standards.
29
Two committees of the Codex Commission were responsible for developing
guidelines on the production and certification of organic products, including the
Committee on Food Labelling and the Committee on Food Import and Export
Inspection and Certification Systems (Thode Jacobsen 2002). The Codex Committee
on Food Labelling developed the Guidelines for the Production, Processing,
Marketing and Labelling of Organically Produced Foods (Food and Agriculture
Organization 2001). The purpose of these guidelines is to facilitate harmonization of
organic certification at the international level and to assist governments who wish to
create regulations for organic production (Food and Agriculture Organization 2001).
These guidelines were adopted in the 23rd session of Codex in 1999; however
livestock and livestock products were exempted from the guidelines. It was not until
the 24th session, in 2001, that guidelines concerning livestock, livestock products,
bee-keeping and bee products were included. The Principles for Food Import and
Export Inspection and Certification state that import requirements should be based
on the principles of equivalency and transparency, which are also two of the major
principles of the WTO (Food and Agriculture Organization 2001).
The development of standards for organic production and trade by Codex
could be an important step in the formation of a common understanding of the term
“organic”. With the creation of its guidelines, Codex hopes to contribute to the
harmonization of provisions for production, certification, identification and labelling
of organically grown produce and to help facilitate mutual recognition of national
certification programs (Food and Agriculture Organization 2001).
30
2.6.3 ISO
The International Organization for Standardization or ISO (which means
equal in Greek) is a worldwide federation of national standards bodies from more
than 140 countries (International Organization for Standardization 2003). It was
established in 1947 and is a non-governmental organization. Its primary goals are
“to facilitate international exchange of goods and services and to develop
cooperation in the spheres of intellectual, scientific, technological and economic
activity” (International Organization for Standardization 2003). While ISO has not
published guides or standards relating specifically to organic production, many
nations use ISO Guide 65: “General requirements for bodies operating product
certification systems”, which was implemented in 1996, when developing national
certification programs (Thode Jacobsen 2002). This cohesion helps facilitate
equivalency negotiations between countries.
2.6.4 UN/FAO
The United Nations’ Conference on Trade and Development and the Food
and Agriculture Organization have joined forces with IFOAM to create the
International Task Force of Harmonization and Equivalence in Organic Agriculture
(ITF). The first meeting of this task force was held on February 18, 2003 in
Nürnberg, Germany (International Task Force 2003). There it was determined that
the ITF will review the existing standards, regulations and conformity assessment
systems of the global organic industry (International Task Force 2003). The
examination will assess the impact that variances in organic programs may have on
31
trade in organic agricultural products, inspect the models and mechanisms of
equivalence and mutual recognition, and will determine the extent to which
international harmonization has already occurred (International Task Force 2003).
2.7 Conclusions
International organizations are playing a major role in the development of
organic standards and certification programs around the globe. Many countries and
certification bodies model their standards after those of IFOAM or ISO. This
replication creates similarities between certification systems across borders, which
should facilitate the international harmonization of organic certification. This
chapter has provided a summary of existing certification programs around the world
and has attempted to demonstrate the importance of standards and certification
programs for the organic industry. Many players within the organic industry are
calling for harmonization of certification programs. Harmonization should be made
easier given the similarities between programs.
32
Chapter 3
Harmonizing the Organic Industry
3.1 Introduction
“Harmonization is not an end in itself, rather it is a means of achieving goals such as greater efficiency or fairness” – David Leebron (1996, p.42)
There is a debate raging in organic circles: to harmonize or not to harmonize.
The goals of harmonization are simple - reduce trade barriers and lower costs to both
consumers and producers; however, achieving the goal of harmonization is a
complex process that will create losers as well as winners in the short run. How is an
optimal standard chosen? Who will it be optimal for? How will the economic losers
be compensated? What will harmonization mean for the organic industry? All of
these questions must be answered in order to understand the true consequences of
international harmonization.
There is little economic literature on the harmonization of production and
processing methods. Instead, the majority of harmonization literature focuses on the
standardization of physical components9 or laws. This chapter presents a general
discussion of the current situation in international organic markets. It gives examples
9 Physical components may include computer parts, telecommunication systems, etc.
33
of arguments both for and against harmonization of certification standards and
presents information on those international organizations involved in the
harmonization process. Following this introductory section, a review of the
economic literature relating to trade barriers, harmonization, standardization,
optimal grading and the theory of clubs is presented. The models and ideas
presented in the literature will be related back to the central issue of harmonization
of organic standards. Finally, a discussion on the economic feasibility and
desirability of harmonization concludes the chapter.
3.2 The Question of Harmonized Standards for the Organic Industry
3.2.1 Current Situation
At present, there is no harmonization of standards among countries with
organic programs. The European Union has a minimum standard that all countries
within the union must adhere to, but individual European countries are free to set
their standards at any point higher than the minimum. Internationally, some
countries have strict standards and guidelines for organic certification and trade,
while others only have standards for organic production destined for export. Still
others have no organic standards at all. In order to trade with a country that has a
national organic program, the exporter must be certified by an accreditor recognized
in the importing country, have their production standards evaluated on a case-by-
case basis or produce in a country that has an equivalency agreement with the
importing nation.
34
Equivalency implies that even though standards may not be identical in two
countries, they are sufficiently similar to be considered equal for the purposes of
trade. Standards will differ due to differences in consumer preferences, costs of
production and the physical environment within which production takes place. These
differences are expected in the organic industry and equivalency has allowed the
differences to exist without prohibiting trade. However, equivalency negotiations
can be lengthy and costly and, as a result, some advocates in the organic industry are
calling for harmonization.
3.2.2 Arguments for Harmonization
As Casella (1996a, p.119) suggests, “To trade economists, used to the idea,
that gains from exchange stem from differences between individuals and countries,
not from uniformity, the demand for harmonization sounds suspicious.” There are,
however, several compelling arguments in support of harmonization of organic
certification. Fox (1990/1991) provides three examples of problems harmonization
can correct – externalities, unnecessary transaction costs and interdependence10.
Leebron (1996) suggests that there are economies of scale to be gained from
harmonization. However, the major argument for harmonization is increased market
access through the reduction of non-tariff trade barriers, i.e. standards that prevent
trade from occurring.
10 Externalities may occur if a country’s standard imposes costs on others for which the imposing country does not have to pay. Transaction costs may be incurred if firms have to spend time ensuring the imports are equivalent to their national standard. Interdependence implies that transactions between the countries are so integrated that a variety of national standards no longer makes sense (Fox, 1990/1991).
35
The two major claims that will be examined here are those that address the
reduction of transaction costs and those that demonstrate how trade restrictions will
be decreased. With the advent of the World Trade Organization (WTO) and the
reaffirmation of the General Agreement on Tariffs and Trade’s (GATT) goal of
conversion of all non-tariff restrictions to tariffs, there has been an increased use of
standards as barriers to trade. This is due in part to increased consumer concerns
regarding food safety and the environment and also increased demand for product
information and differentiation (Roberts 1999), but also for protection of domestic
producers.
Harmonizing the organic certification process “would help limit the
unintended trade restrictive consequences of legitimate technical standards”
(Roberts 1999, p.338). Governments or private bodies can impose minimum
standard requirements that make it difficult for outsiders to access the market. This
discrimination can be seen in the requirement that Swiss chocolate producers use
imported organic milk powder from Great Britain in order to obtain an organic label
for their chocolate in the British market (Aebi 2002).
The second main argument for harmonization is the reduction of transaction
costs. Transaction costs are the costs of conducting business. They are usually
divided into three categories: information or search costs, negotiation costs and
monitoring and enforcement costs (Hobbs 1996). Information costs are those that are
incurred ex ante to a transaction. Negotiation costs occur during a transaction and
can include costs of drawing up contractual agreements, as well as other costs of
organizing transactions. Finally, monitoring and enforcement costs are those
36
incurred ex post and involve the costs of ensuring a contract is fulfilled. Weseen
(2003, p. 4) suggests that “in the context of the organic industry, transaction costs
are primarily ex ante search costs associated with verifying organic authenticity.”
When importers are faced with many different certification programs, they
must investigate each certification system to ensure it is equivalent to their own.
This investigation costs the importer time and money, and if it is too expensive, he
or she may be convinced to look for domestic substitutes. Some of the transaction
costs will be absorbed by the seller in the form of lower prices; therefore, a
reduction in these costs should prove beneficial to both buyers and sellers.
3.2.3 Arguments Against Harmonization
Harmonization of organic standards may be nearly impossible to achieve;
therefore the industry has focused its energies on harmonizing certification
processes. There are four issues that make it difficult for harmonization to occur: the
bundling of characteristics in organic products, the reluctance of policy makers to
give up sovereignty over standards, differing consumer beliefs, and the problem of
choosing the optimal certification standard. In this section of the chapter, each of
these arguments against harmonization will be discussed.
The organic industry has evolved to exclude certain types of products.
Genetically modified organisms (GMOs), crops treated with sewage sludge and
irradiated products are examples of goods that cannot be considered organic in the
US. While most of these activities/products were not originally excluded (due to the
fact that most are recent developments), modern consumers of organic food have
37
strong beliefs surrounding these new technologies and their place in the organic
market. This is representative of the “bundling” that is present in the organic
industry. GMOs may be grown without the use of pesticides in the same manner that
a non-GM crop would be. However, the concept of organic agriculture has evolved
to include and exclude a variety of types of crops that do not “fit” into the organic
mould. This bundling will differ across nations. Therefore it may be difficult for
countries to agree on a common certification standard if there are severe differences
in organic standards, e.g. GMOs permitted versus prohibited.
When nations agree to harmonize standards they give up their right to
complete sovereign control over an industry. A country can request a review of the
standards but the decision to change them must be made as a collective. In the words
of Jackson (2000, p.651): “Harmonization involves a struggle between sovereign
countries, each with their own national standards, over whether and to what extent
an international standard should apply.” It is extremely difficult to convince a
country to give up control of the fate of a domestic industry; thus the perceived
benefits must be large enough to compensate for the perceived loss.
Standards may differ because of agronomic differences, substantive
differences in consumer demands or for protectionist reasons. The major threat to
harmonization is differing consumer beliefs. Consumers’ beliefs will have
considerable influence on the development of standards for processing and
production methods. Lohr and Krissoff (2002) emphasize the idea that
harmonization of certification standards in itself is not sufficient to maximize
welfare if consumers do not accept the equivalency of domestic and foreign organic
38
goods. This may occur if consumers believe that the foreign organic industry is not
being monitored closely, thereby providing an opportunity for fraudulent claims.
Therefore it is important to investigate expected consumer response to the inclusion
of imported organic products in their domestic market. This reaction may be the key
to determining the success of harmonization of certification processes.
How is an optimal standard chosen? If we imagine standards along a
spectrum, with no standard at one end and the most strict standard at the other, it is
easy to see that countries could be found at all points along the spectrum. Therefore,
it is difficult to decide which standard should prevail. Consumer tastes will dictate
standard placement. If consumers are homogeneous then the standard should be set
to conform to their tastes, however consumers may be homogeneous within their
country but differ across borders. This would imply that there are costs and benefits
of setting a harmonized standard that can be weighed. A median point could be
chosen between the two countries’ standards; however, this ignores the relative
strengths in bargaining power between nations and the strengths of consumers’
preferences. It is likely that large modern nations who are the primary consumers of
organic products will determine the optimal standard and the less developed or
smaller nations will have to follow suit or get left behind. Does this imply
harmonization or rather a “forced feeding” of the chosen standard?
3.2.4 Government Involvement in Harmonization
There are three actors that interact in the development of a standard:
government, private firms and international standards organizations (Casella 1996b).
39
It is private firms that commence the standardization process. Casella (1996b, p.2)
goes on to suggest that “harmonization will occur ‘from the bottom’, through the
coordinated actions of private firms operating across borders, more quickly than
through treaties and bureaucrats’ interventions.” This harmonization will be a result
of businesses, some of them multinational, responding to market demand. While
national organic standards are necessary in order to promote trade and decrease
transaction costs, it is less obvious that government involvement is needed in the
harmonization process.
3.3 The Economic Study of Harmonization
Much of the literature on standardization or harmonization of standards
focuses purely on physical or technical standards and legal issues. There is little
literature on the harmonization of production and processing methods. Instead,
papers on barriers to trade, harmonization, standardization, optimal grading, and the
theory of clubs will be examined in order to adapt a theoretical model of the
economic impacts of organic harmonization.
3.3.1 Non-Tariff Barriers to Trade
Recently there has been a proliferation of non-tariff barriers to trade in world
food markets. These could be attributed to a variety of influences including
increased demand for food safety and quality, and increasing concerns regarding the
environmental effects of agricultural production (Roberts 1999). In Roberts (1999,
p.337) technical trade barriers are defined as:
40
“regulations and standards governing the sale of products into national markets which have as their prima facie objective the correction of market inefficiencies stemming from externalities associated with the production, distribution and consumption of these products”.
However, Roberts (1999) also points out that technical barriers can be welfare
enhancing for the importing country in that the barriers allow a country to achieve
health, safety quality and environmental objectives, and as a side effect, provide
protection to domestic producers. Thus harmonization may not always be the
preferred option.
In Bureau, Marette and Schiavina (1998), an economic analysis of the EU-
US trade dispute over hormone treated beef is presented. They examine situations
under autarky, analyze the effects of opening the domestic market, and investigate
the problem of multiple equilibria. Using vertical differentiation they conclude that
the effects of trade liberalization under imperfect consumer information are
ambiguous. Opening the border to foreign goods that are perceived to be of lower
quality may result in market inefficiencies and multiple equilibria. The welfare
changes depend on consumer beliefs, including the strength of their aversion to
certain qualities and the difference in production costs of foreign and domestic
goods. This framework could be used in the organic context, as differences in
standards may also lead to market inefficiencies.
Similarly, in Gaisford et al. (2001), consumers are assumed to be
heterogeneous in their preferences for genetically modified foods. There is
information asymmetry between producers and consumers, in that producers are
aware of the genetically modified properties of the product whereas consumers
cannot distinguish GM from non-GM products even upon consumption of the good.
41
Consumers are divided into two groups; the first group has no preference in regards
to non-GM foods; in the second, consumers vary in the strength of their preferences
for non-GM foods. With the introduction of GM imports there are positive price
effects and negative adverse quality effects. Resulting welfare changes are
dependent on the weight of these two effects. If the adverse quality effect outweighs
the price effect, market demand will decrease as perceived quality declines.
This paper is relevant to the current discussion of harmonization because of
the credence nature of GM foods as well as the fact that the importation of organic
goods may also have a price effect and an adverse quality effect. Those consumers
who view imported organics as inferior will experience decline in their utility from
the consumption of organics while other consumers will experience a gain due to the
lower price that is a result of increased trade.
3.3.2 Harmonization
Much of the economic literature on harmonization focuses on two themes:
legal harmonization and product standards harmonization. There is a dearth of
economic literature pertaining to harmonization of processing or production methods
or, in this case, certification. Lohr and Krissoff (2002) have attempted to fill this gap
by analyzing the consumer effects of harmonized organic standards. A partial
equilibrium trade model is used to illustrate the possible outcomes of harmonization
and the consumer welfare effects. They use six different certification scenarios to
determine the global welfare effects. First, the situation in which equivalency is not
granted is examined. Second, the products are granted equivalency and are treated as
42
homogeneous by consumers. Third, the products are granted equivalency, however
consumers perceive the exporting country’s standards as less stringent and therefore
the goods are perceived as inferior. In the fourth scenario, the exporting country’s
producers either produce specifically for export or for the domestic market and the
exported goods are treated as equals in the importing country. The fifth situation is
similar to the previous case but the goods are not treated equally by consumers.
Finally, the situation in which exporters are certified domestically but start an
educational program in the importing country is investigated. Using data on US
exports of organic wheat to Germany, Lohr and Krissoff (2002) find that the
quantity traded and net surpluses were highest when the imported goods were
treated as homogeneous, as in scenarios two and four. In order for welfare to be
maximized, consumers must accept that the imported and domestic goods are
equivalent. If this is not the case, then consumers will look for domestic labels as a
signal of quality. Contrary to what the title suggests, this paper actually analyzes the
effects of different consumer reactions to goods traded between countries that have
established equivalency. Lohr and Krissoff (2002) also stipulate that while
harmonization may reduce transaction costs, it is the acceptance level by consumers
that will determine the welfare effects.
Leebron (1996) attempts to separate justifiable harmonization claims from
non-justifiable claims. He presents reasons why laws and policies differ including
endowments, technologies, institutions and preferences. In many cases, standards are
created to achieve a public goal. These standards will have evolved from economic
conditions and will change as public perceptions and desires change. Casella (1996a,
43
p.120) states “the uniformity of standards has no necessary correlation with gains
from trade”. Rather, the convergence of national incomes due to trade will cause
standards to harmonize (Casella 1996a). She concludes that when countries have
different productivity levels the resulting trade equilibrium will be closer to the
richer country’s autarky equilibrium.
Hansson (1990) studies the economic effects when international
harmonization requires that countries change their economic policies or legislation.
He assumes that all nations have a small open economy, and that countries are either
producers of goods with high requirements (standards), low requirements
(standards) or do not produce at all. There are two types of harmonization - optional
or total. Optional harmonization requires that a product destined for export must
abide by international agreed standards, while total harmonization requires that a
product must satisfy the harmonized standards agreed upon, whether it is marketed
in the domestic country or in an importing country. A low standard is defined as a
standard that has the least costly specifications (Hansson 1990).
Countries can be divided into two groups, those with low requirements and
those with high requirements. Low requirement countries can only produce for
domestic consumption and for other low requirement countries, whereas high
requirement countries have no market restrictions (Hansson 1990). Using traditional
comparative static analysis, Hansson (1990) analyses the welfare effects of
implementing optional maximum harmonization (converting to the highest
requirements), total maximum harmonization and total minimum harmonization
(converting to the lowest requirements). He finds that when the minimum pre-
44
harmonization standards are selected, global welfare increases. When optional
maximization is chosen, welfare decreases due to the prohibition of trade between
low requirement countries and in the case of total maximization, welfare also
decreases due to the loss of low requirement products in the low requirements
countries. The price effects of harmonizing are also determined.
Ulph (1997), in a discussion on the impacts of harmonizing environmental
policy comes to similar conclusions. He finds that if countries are sufficiently
different in terms of their damage costs of environmental damage, then
harmonization cannot yield a Pareto improvement over a situation of non-
cooperation. Baghwati and Srinivasan (1996) expect that enforcement of
harmonized policies will be welfare worsening from a national and international
perspective if an optimal policy was being pursued.
The lack of economic literature on harmonization requires that other fields be
examined in order to determine the effects of harmonization on national and world
welfare. Standardization is a process by which a regulated standard is established. Its
reach may be global or national. For example, paper size is standardized around the
world, but the standard size in North American is not the same as the standard size
in Europe. In the upcoming section, standardization and its possible role in the
harmonization of organic standards will be discussed.
45
3.3.3 Standardization
Policy-makers have used standards to achieve a variety of goals. As
Kindleberger (1983) remarks, standards can be used to reduce transaction costs and
to achieve physical economies that are external to the firm. Originally, however, it
was merchants who established standards in an attempt to distinguish their products
to consumers. Jones and Hudson (1996) cite the need for standards for references11,
for minimum quality levels and for interface compatibility. Kindleberger (1983)
determines that the decision of whether or not to change standards can be made by a
single decision-maker providing they have perfect information regarding costs and
benefits and that future benefits are discounted appropriately. The paper by Jones
and Hudson (1996) is concerned with the use of standards as a tool to reduce
variation in quality and the role it plays in reducing transaction costs to consumers
who are trying to assess quality but are faced with imperfect information.
Casella (1996b) has provided one of the most relevant articles to this debate
on the harmonization of organic certification standards. Her paper uses a general
equilibrium model of trade and models standards as a club good12. Variety is still
considered desirable and is still present due to different individuals engaging in
different economic activities. The idea of a central planner is used to determine the
optimum number of coalitions (or standards). In this model, a circle of unit radius
represents a single country and each individual owns one unit of the differentiated
good. The angle between two varieties is a graphic representation of the difference
between the two goods. All trade occurs at the centre of the circle and in order to 11 As in definitional material for example: currencies, weights, measures, etc. (Jones and Hudson 1996)12 A club good is a good that is shared amongst different members of a club. Membership in the club can either be exclusive or inclusive and in some instances there will be a cost to join.
46
reach it, roads must be built (the roads are representative of standards). Consumers
need the roads, but the roads can be shared by coalitions of consumers in order to
lower costs. To convert this model to a world situation, a sphere is used. The
longitudinal circles represent the various countries and the latitudinal circles
represent the differences in product variety. It is clear to see that all varieties in the
world differ, with the exception of the varieties at the poles. These two varieties are
common to all countries. One single world standard at one pole increases welfare, is
cost-saving and does not increase the distance for consumers to the centre, however,
it is unclear whether dividing the world into two hemispheres results in welfare
enhancement. The benefits of two standards are more dependent on the trade-off
between taxes and resources lost to inappropriate standards. When the number of
coalitions is greater than two it will be more difficult to agree on a choice of
standards and issues surrounding equity and distribution will arise. Mutual
recognition by governments and consumers would eliminate protectionist
motivations for national standards and may lead to cooperation by firms in the
development of international standards.
Moenius (1999) explores the ideas that country-specific standards are
barriers to trade and that internationally shared standards will promote trade. Using a
panel data set with data on country-specific and shared standards, the paper
estimates a gravity model. While the results confirm the view that international
standards are beneficial in terms of increased trade, interestingly, the results show
that country-specific standards within the manufacturing industry in the importing
country also promote trade on average. Country- specific standards within the
47
manufacturing industry reduce information costs and allow for easier contracting;
the lower information costs outweigh the adaptation costs that exporting nations
must incur to meet the importer’s standards (Moenius 1999). However, in non-
manufacturing industries like agriculture, country-specific standards will continue to
hinder trade. This is due to the fact that in non-manufacturing industries, the
products are relatively homogenous and do not have as many informational
requirements as those manufactured products (Moenius 1999). Therefore the
information cost reductions do not apply in these sectors.
Ronnen (1991) presents a different argument. He states that if production
involves fixed costs and firms compete in prices, a standard, if chosen appropriately,
will increase consumer participation in the market and will result in the selection of
higher qualities by consumers. This is in direct contrast to results by earlier
economists who claim that there will always be some consumers who are made
worse off by the introduction of a minimum quality standard (MQS) as their
preferred product is no longer available. Ronnen (1991) claims that low quality
producers will raise their qualities to meet the MQS and in doing so become close
substitutes to the high quality suppliers. This convergence in qualities results in a
price competition between the high and low quality suppliers where high quality
producers always lose and low quality producers may win if the MQS is close to the
unregulated low quality. It is unclear whether this can be used to determine an
optimal standard for organic certification, as producers will have various costs
depending on their location.
48
Further along the standardization chain is the concept of grading. Grading
requires that certain standards be established for grade levels. If a product meets the
specified standards for a grade level then they attain that grade. Grading has been
widely used in agricultural products, e.g. meat, eggs, and therefore may provide
some insight into the economics of harmonizing organic standards.
3.3.4 Grading
Similarities can also be drawn between grading and standardization. There is
a distinct correlation between the establishment of optimal grading levels and the
establishment of a minimum standard. These levels are extremely important if
welfare is to be maximized but economic research has provided little discussion of
the benefits and costs of grades, their role and the establishment of grades
(Bockstael 1987). According to Bockstael (1987), most of the literature on optimal
grading focuses on maximizing producer returns. While important, in the realm of
organic trade trying to meet consumer demand is more imperative. A competitive
market would appear to provide an optimal number of grades, but if there is
collusion between producers there may need to be some regulatory involvement, as
collusion would result in too few grades and too much standardization (Bockstael
1987). Bockstael (1987) also suggests that the optimal number of grades will be
dependent on the cost of assessing the desired characteristics.
In his seminal paper, Zusman (1967) creates a model to determine sorting
and grading schemes. He suggests that the behaviour of the individual consumer and
his valuation of quality must be known first as “the relationship between product
quality and consumer behaviour is central to any theory of grading” (p.92). Zusman
49
(1967) differentiates between commodities with different quality characteristics,
treating them as different commodities. Differences in consumer values are
graphically represented by individual quality valuation functions (IQVF). The
optimal grading boundaries will be established at the intersection of the IQVFs
within the market quality valuation function. Equilibrium will prevail when the
system of IQVF’s does not induce sellers to change the system. This model could be
used to determine the optimum number of certification standards within organic
agriculture; however it may prove too difficult to determine individual IQVFs for all
consumers of organic products.
The final concept to be examined within this discussion of the economics of
harmonization is the theory of clubs. The theory of clubs refers to a model that
determines an optimal “club” size based on costs and consumption. In terms of
harmonization of organic standards, the theory of clubs may enable researchers to
determine the optimal number of member countries that subscribe to a specific
standard. In the next section of the chapter, the theory of clubs will be examined in
more detail.
3.3.5 The Theory of Clubs
Buchanan (1965) developed a general theory of clubs or consumption-
ownership-membership arrangements. The theory aims to find the club size that
optimizes cost and consumption. Provided a good is not purely a public or private
good, then the utility an individual attains from consuming the good will be
dependent on the number of other people he/she shares it with. Full equilibrium is
50
reached when the marginal benefit of an additional member equals his/her marginal
cost. Given that the good is of a finite size there is an optimal number of members,
which exists where the derivatives of the total cost and total benefit functions are
equal. There are some limitations to this theory. Its utilization is limited to an
organization where exclusion is possible and it fails to take into consideration the
added costs of negotiating agreements among members.
An applied example of this theory can be found in the work of
Andriamananjara and Schiff (2001) on regional cooperation between microstates.
Regional groupings are especially prevalent among microstates due to limited
resources, lack of bargaining power and the high cost of negotiations.
Andriamananjara and Schiff (2001) use the theory of clubs to determine when
cooperation would be chosen, what the equilibrium group size would be and what
the optimal group size would be. In their paper, the optimal group size is defined as
“the point where the total net benefit for the insiders and outsiders is maximized, or
where the marginal net benefit to the group of an extra member equals the net
benefit foregone by that new member” (p.46). Investigating the three scenarios –
open or free membership, selective membership without a fee, and selective
membership with an entry fee – it was found that open or free membership results in
a group that is too large compared with the optimum because outsiders do not
consider the negative externalities they impose. Selective membership without a fee
leads to a group size smaller than the optimum, as insiders do not consider the
potential gains for new members. Finally, selective membership with a fee generates
the socially optimal group size. In order to reach the optimal size, the payment must
51
be large enough to cover the decrease in the average net benefit that results from
adding a new member.
The theory of clubs may be useful in the context of organic certification. By
determining the optimum number of members we could then use backward
induction to calculate the number of standards needed (where a result of one would
suggest harmonization is the optimal policy). When determining the optimal size of
club the reduction of negotiation costs and the reduction of transaction costs for
firms must be considered. The addition of an extra member/country to the club may
increase the costs due to the costly demands that member may require. A club
formation may be most functional when standards are fairly similar so as to reduce
confrontation.
3.4 Conclusion
Is organic harmonization economically feasible? Desirable? A popular
rationale for standards is that the exclusion of low quality goods guarantees the
consumer a high quality product. This in turn will increase demand and raise the
price of the remaining products. However, standards can also be used to protect the
domestic industry against foreign imports. The organic industry relies on standards
to convey quality information to consumers; however, these same standards may be
preventing the advancement of the industry by restricting trade opportunities.
Harmonization is often suggested as a means of overcoming these restrictions.
Harmonization will reduce marketing costs as well as other transaction costs, but
little information is known about the costs of harmonization itself. The next step is
52
to develop a model to predict the welfare consequences and the benefits and costs of
harmonization.
It could also be questioned whether consumers desire harmonization.
Currently, consumers are resisting foreign organic products mainly due to beliefs
surrounding the stringency of foreign organic standards but also because of the
environmental effects of transporting food great distances. Lohr and Krissoff (2002)
suggest that harmonization may generate a false sense of security for producers as it
may lead to lower transaction costs but may not lead to increased sales due to
consumer rejection. Consumers may reject imported organics if they are thought to
be inferior to domestically produced products.
It has been difficult to find any economic analysis of harmonization. Indeed,
Marchant and Ballenger (1994, p.113) suggest “harmonization of processing and
production methods is the class of harmonization least likely to generate support
based on economic concepts.” They conclude that in some instances, the
establishment of a single standard may lead to exclusion of some countries from the
organic market, which in turn will lead to increased market power for some
producers. Even if it is determined that harmonization is the optimal solution for all
nations, distributing costs and benefits in an equitable manner may act as a barrier.
In order to determine if harmonization is economically desirable for the
organic industry, a model is subsequently developed that takes into consideration
both the consumer and producer effects. Standards are developed to meet consumer
demand and in some instances to protect consumers and the industry. Standards will
differ across nations according to differing consumer beliefs. The effects of
53
changing these standards to accommodate an international standard need to be
modeled to determine the costs and benefits of harmonization. Once a theoretical
framework has been developed, the organic industry will have a better
understanding of the economic consequences of harmonizing certification standards.
54
Chapter 4
Harmonization: A Theoretical Model
4.1 Introduction
Economists have largely ignored a rigorous treatment of the harmonization
of standards. Harmonization is particularly difficult to analyze in agricultural
economics where product variability is large due to the substantial role biological
parameters play in the production process. Hoos (1978) captured this problem when
he stated that, “The ambiguous status of the quality provisions derives in large part
from the lack of attention given in economic theory to the subject of quality” as cited
in Bockstael (1987, p.236). Harmonization has been widely promoted as a means to
facilitate trade in organic products. An international task force has been established
to investigate the possibility of harmonizing organic certification. As Hoos suggests
in his statement, there is little economic analysis of the effects of harmonization on
world and national welfare. This chapter develops a model to help illustrate the
economic implications of organic standards harmonization.
The chapter is divided into six sections. First, there will be a brief discussion
of international autarky, which will lead into the development of an open border, or
free trade, model. The second section will examine the idea of equivalency. The
consumer effects of equivalency will be illustrated in two situations. The first
55
situation will assume that the importing country has the stricter standard and the
second will assume that it is the exporter who is stricter. Two cases will be modeled
under two situations; first the case where the difference between standards is slight
and second, the case where it is large. The third section of the chapter will
investigate the harmonization claims made by advocates of the organic industry.
Using a two-country model, welfare effects of various standard choices will be
determined under both standards cases (importer-stricter and exporter-stricter). This
will be followed by a discussion of differing standards. More specifically, it will
examine how the degree of difference between standards will influence the changes
in consumer and producer surplus.
Throughout the chapter certain assumptions will be made regarding the
distributions of consumers’ tastes. In the fifth section of the paper, these
assumptions are relaxed. A discussion is provided of how the properties of the
distribution of consumer tastes will affect changes in demand and supply. Finally, a
concluding section summarizes the results and makes suggestions for further
analysis.
4.2 The Benchmark
Demand for organic goods is increasing in Europe, North America and
Japan. Opportunities for selling organic products internationally are arising and
firms are willing to act on those opportunities. Domestic organic standards, while
necessary to facilitate the development of an organic industry, can be a major
inhibitor of trade if they differ among countries. Currently, equivalency agreements
56
must be negotiated (among mostly developed countries) to allow the free flow of
organic goods from one country to another. Without an equivalency agreement,
many measures must be taken to ensure the quality of the organic product to the
importer. The European Union (EU) is actively involved in equivalency
negotiations13. This is, in part, due to EU legislation that will prohibit the
importation of organic foods from countries that have not established equivalency by
December 31st, 2005.
A ban on trade in organic products from all nations will result in a situation
of autarky. Autarky occurs when there is no trade between nations. In the organic
industry, autarky may also arise as a result of differing standards. In an autarky
situation, each country will have its own equilibrium price and quantity. Figure 4.1
illustrates an autarky situation, where m represents the potential importing country
and x represents the potential exporting country.
Figure 4. 1 Autarky
13 The EU is currently negotiating with the United States to develop equivalency between its Regulation 2092/92 and the US’s National Organic Program (USDA 2002). There are only 7 countries on the Article 11(1) list (those that have negotiated equivalency and are considered third countries) but the European Union imports organic products from over 90 countries with which it must establish equivalency in the near future (European Commission 2002).
Potential Exporter
Potential Importer
57
Initially, countries whose organic standards are different may be in a
situation of autarky but what if these countries were allowed to trade without any
restrictions? The case when borders are open to trade in organic products is
illustrated in Figure 4.2. It is easy to see that opening the borders to trade increases
overall welfare if differences in consumer preferences are not taken into
consideration. This assumes that the differing standards do not present a problem
and that consumers in the importing country treat domestic and imported products as
equal (an assumption that is necessary to show welfare effects of open borders but in
the context of organic products may be unrealistic).
From Figure 4.2, the welfare effects of opening the borders to trade can be
determined. Trade liberalization results in a higher price for producers and
consumers in the exporting country and a lower price for consumers and producers
in the importing country. Originally, consumer surplus was equal to area g in the
importing country, but as price falls from Pm to Pw1 with the opening of trade,
consumer surplus increases to g+h+j+k. Producers began with a surplus of area h+i
and are left with a surplus of area i. This implies an overall welfare improvement in
the importing country of area j+k. In the exporting country, consumers lose as prices
rise from Px to Pw1 and as their surplus shrinks from a+b+d to a while producer
surplus grows from c+e to b+c+d+e+f. These changes result in an overall welfare
improvement equal to the area f.
58
Figure 4. 2 Open Borders
Sx
Dx
Sm
DmPx
Qx QX
PX PMPW
QW
Pm
Qm
ES
ED
Pw1Pw1 Pw1
QsxQdxQdmQsm
Qw
Exporting Country
World Market
Importing Country
a
b
c
fde
g
h
i
j k
QM
59
Although it appears that opening borders to organic trade would have a
positive effect on global welfare, there are other factors leading to decisions to keep
foreign organics out of domestic markets. In reality, standards are not identical
across countries. If well designed, standards will please the majority of consumers
and producers involved in the organic industry within the domestic market. If
organic products from a country with very different standards are allowed to enter
the domestic market, there will be consequences for both consumers and producers.
The implications of establishing equivalency and of developing a harmonized
system will be outlined in the upcoming sections of the chapter.
4.3 Equivalency
An equivalency agreement between two countries does not imply identical
organic standards; instead it signifies an understanding between the two nations that
while their standards may differ because of agronomic differences or differences in
consumers’ preferences, they are sufficiently similar to be considered equivalent for
the purpose of trade. However, equivalency agreements are only effective if
consumers in the importing country perceive the imported organics positively, i.e.
consumers do not value the other country’s standards less than their country’s
domestic organic standards. In other words, “if both importing and exporting
countries view each other’s certification as equivalent, organic product flow is
optimized and the good is treated as homogeneous with respect to standards” (Lohr
and Krissoff 2002, p.212). If consumer perceptions of organic standards differ in
important ways, then the homogeneity assumption does not hold. Further,
60
convincing consumers that the goods are equally “organic” may not be an easy task.
According to Lohr and Krissoff (2002, p.212), “Even if standards are identical,
consumers and buyers in the importing country are likely to view imports as subject
to less stringent requirements.” Thus, while the idea of open borders between two
countries that have developed equivalency may seem ideal, it does not take into
consideration consumer response in the importing country.
Consider two countries where there are differences in the mean preferences
of consumers and standards have been established that reflect those differences. Two
normally distributed curves with the standards located at the respective means could
be imagined. The national standard is found at the point that conforms to the mean
preferences of consumers. There are also consumers whose preferences do not
correspond exactly with the standard and they will be found to the left or the right of
the mean. Moving further from the mean, consumers preferences are reflected less
and less in the standard and they would prefer some alternative standard that
coincides more closely with their tastes. The assumption that consumers are
normally distributed around the standard is used to demonstrate the welfare effects
of developing equivalency or harmonizing. Later in the chapter, the assumption of a
normal distribution will be altered and the corresponding effects will be discussed.
It is also assumed that producers in the two countries can use identical
technology. Therefore, the advantage one country has over another is based on the
agronomic and cost differences. Finally, for the moment it will be assumed that
consumers cannot differentiate between imported organics and domestic organics at
61
the point of purchase and that any products offered for sale could contain a mixture
(blend) of imported and domestic products.
In the following scenario, the importing country is assumed to have the
stricter14 standard, i.e. Sm>Sx (see Figure 4.3). The fact that the standards differ will
have consequences for the perceived quality of organic goods in the importing
country. Since it is difficult to segregate imports from domestic products once they
have entered the market, organic goods will be pooled together. The consumer
effects of importing organics from a country with less stringent standards will be
modeled first. Then the consumer effects will be examined in the situation when the
exporting country has the stricter standards.
Figure 4. 3 Graphing the standards (importer stricter)
14 A stricter standard may entail greater documentation of actions taken by the producer, longer conversion periods, a lengthier list of prohibited substances, larger buffer zones between conventional and organic farms, differences between allowable organic claims on labels, etc. A ‘stricter’ standard would generally be assumed to increase costs to producers.
QM
62
4.3.1 Welfare Effects with Slight Variations in Standards
In this scenario, the organic standards are granted equivalency by the
respective governments, however, consumers do not regard the imported organic
goods as homogenous to domestic organic products. The standards in the exporting
and importing country differ slightly and as a result the consumers in the importing
country perceive the imported organics to be of inferior quality to the domestically
produced organics. As the goods in the marketplace are blended, the overall demand
for organic goods decreases. Consumers are willing to pay less for goods that they
consider to be of inferior quality – goods that may contain foreign products. In other
words, their demand shifts to the left relative to the case when goods are
homogeneous. In the importing country, demand for organic food has declined from
Dm to Dm’ due to the perceived adverse quality of the imports (Figure 4.4). The
decline in demand leads to a decrease in excess demand, from ED to ED’ which
results in a lower world price (Pw2) (see Figure 4.5 for details). This is an adverse
quality effect. Initially consumer surplus (CS) in the importing country (Figure 4.4)
was g+m+l+n, but the decrease in price from Pw1 to Pw2 and the decrease in
demand results in a CS of g+h+j+k+n. Producers also see a decrease in their
surplus from h+i to i. Overall welfare changes in the importing country are equal to
j+k-m-l. Welfare depends on the relative sizes of areas j+k and l+m and will need to
be determined empirically.
The effects of the price decrease caused by the decline in excess demand are
also felt in the exporting country. The price decrease causes an increase in consumer
63
surplus from a to a+b+d , but it also causes a decrease in producer surplus which
changes from b+c+d+e+f+q+r to c+e+f+q as in Figure 4.6.
Figure 4. 4 Equivalency: Importing country
Pw1Pw2
Qsm’ Qsm Qdm’Qdm QM
Dm’Dm
PM
Sm
g
h
i
m
j kln
Importing Country
64
Figure 4. 5 Equivalency: World market changes
Sx
Dx
Sm
DmPx
Qx QX
PX PMPW
QW
Pm
Qm
ES
ED
Pw1Pw1 Pw1
QsxQdxQdmQsm
Qw
Exporting Country
World Market
Importing Country
Dm’
Pm’
ED’
Qw’
Pw2Pw2 Pw2
Qdx’ Qsx’Qsm’ Qdm’
QM
65
Figure 4. 6 Equivalency: Exporting Country
This situation could still be beneficial when compared with that of autarky. If
area m is smaller than area j+n+k in the importing country then trade is beneficial,
but if the reverse is true, then autarky will be an improvement. The exporting
country still experiences a gain of q over the situation of autarky and will wish to
trade (see Figure 4.6). However, if standards are further apart on the standard scale
this improvement may be eaten away by the adverse quality effect increasing the
shift in demand.
Dx
Sx
QsxQsx’
QdxQdx’
a
b
c
de
rqf
Pw1Pw2
QX
PXExporting Country
66
4.3.2 Welfare Effects with Greater Variation in Standards
In the case modeled in the previous section, the standards of the two trading
nations differed only slightly, however, there may in fact be large discrepancies
between the two standards as in Figure 4.7. For example, the United States’ National
Organic Program requires a buffer zone to prevent drift of prohibited substances
onto organic fields. The European Union’s Community Rules do not require such a
zone. This difference may be extremely important to consumers but may appear
inconsequential to negotiators who grant equivalency. What are the consequences of
establishing equivalency when the standards are vastly different? The next section of
the chapter will describe the welfare effects of opening the border to trade under
such circumstances.
0
5
10
15
20
25
30
950 1000 1050 1100
Standard
Num
ber o
f Con
sum
ers
ImporterExporter
Figure 4. 7 Wide variation in standards
67
Figure 4.8 illustrates how consumer demand will change in the importing
country when imports from countries with far less stringent standards are permitted.
Comparing this to the case where standards differ only slightly at Dm’, it can be
shown that initially CS was equal to area m+g+h+n+o+p+r but upon granting
equivalency demand changes to Dm” and price decreases to Pw3 due to a larger
adverse quality effect. The new CS at Dm” is equal to area g+h+i+k+l+n+p+q
because of consumer concerns over the stringency of the standard in the exporting
country. While the adverse quality of the imported goods affects consumer demand,
so too does the lower price. The lower price may entice some additional consumers
to purchase organic products. Producer surplus unambiguously decreases with the
decrease in demand and the lower price. At Pw2 producers received a surplus of i+j
but with the new lower price, Pw3, they find themselves only earning a surplus of j.
This leads to welfare changes equal to k+l+q-m-o-r. If the price effect is greater
than the adverse quality effect then this value should be positive; if, however, the
adverse quality effect is greater than the price effect, granting equivalency will result
in a decrease in welfare.
When this scenario is compared with that of a no-trade situation, the
importing country may be better off if they shut their borders to imports. Importing
products from a country whose standard is very different from their own causes the
importing country to lose area m+s, this loss may not be offset by the gain of area
k+l+n+p+q+r. The large difference in standards may make it detrimental to the
importing country to import organic products.
68
Figure 4. 8 Welfare implications in the importing country when standards differ greatly
The decrease in demand in the importing country has repercussions in both
the world market and the exporting country. Changing demand causes changes to the
excess demand curve which can be seen in Figure 4.9. The lowering of the world
market price to Pw3 results in welfare changes in the exporting country. Figure 4.10
demonstrates these changes. Clearly consumers gain when facing a lower price. This
Pw1Pw2
Qsm’Qsm
Qdm’Qdm QM
Dm’Dm
PM
Sm
g
hi
m
n pq
o
Importing Country
Dm’’
Pw3
Qsm’’ Qdm’’
jk l
r
s
69
can be seen by comparing the consumer surplus at Pw2 with that at the new world
price of Pw3. Consumer surplus increases from a+b+e to a+b+c+e+f+h. However,
a lower price is not beneficial to producers who face a decreasing surplus. Their
surplus decreases from c+d+f+g+h+i+j+k+l to d+g+i+k+l. The benefits to
consumers are not sufficient to offset the losses producers face and the resulting
welfare has been lowered by j. However, unlike the situation in the importing
country, the exporting country still benefits from trade. The exporting country
receives an additional gain of area l, which could not be attained if trade did not
occur. Table 4.1 outlines the welfare effects of both scenarios.
70
Figure 4. 9 World market effects when standards differ greatly
Sx
Dx
Sm
DmPx
Qx QX
PX PMPW
QW Qdm’’
ES
ED
Qsx’’Qdx’’Qw
Exporting Country
World Market
Importing Country
Dm’
ED’
Qw’
Pw2Pw2 Pw2
Qdx’ Qsx’Qsm’
Qdm’
Dm’’
ED’’
Pm’’Pw3
Qw’’
Pw3Pw3
Qsm’’
QM
71
Figure 4. 10 Exporting country when standards differ greatly
Sx
QsxQsx’
Qdx
a
bc
e
gk
jh
QX
PXExporting Country
d
Qdx’’ Qsx’’
f
i
Pw1
l
Dx
Qdx’
Pw3Pw2
72
Table 4.1 - Welfare effects of equivalency negotiations compared to autarky
Variation in Standards
Welfare changes in importing country
Welfare changes in exporting country
Overall world welfare changes
Slight Case 1: Increases if area m< area j+n+k (Figure 4.4)
Increases, area q is gained (Figure 4.6)
Unambiguously increases
Case 2: Decreases if area m> j+n+k
Increases, area q is gained
Decreases if area m>j+n+k in Figure 4.4 and q in Figure 6, increases otherwise
Large Case 1: Increases if area s+m< area n+p+k+l+q (Figure 4.8)
Increases, area l is gained (Figure 4.10)
Unambiguously increases
Case 2: Decreases if area s+m> area n+p+k+l+q
Increases, area l is gained
Decreases if area s+m> the gain of areas n+p+k+l+q in Figure 4.8 and l in Figure 4.10, increases otherwise
4.3.3 Reversing the Standards
Now assume a world in which the two trading partners’ standards are
reversed. The exporting country has set a strict standard and the importing country
has established one that is more lenient. What are the implications if the exporting
country has a stricter national standard than the importing country? Does this change
the resulting overall welfare situations?
Figure 4.11 illustrates how the standards are now organized. Note that these
changes do not affect the initial autarky situation or the situation of open borders -
they result in the same welfare effects. It could be asked how producers in the
exporting country could have lower overall costs if the standards are stricter (i.e.
73
costs are higher), however, this is easily explained once agronomic differences
between the two nations are accounted for. The exporting country has better
environmental conditions for the production of organic agriculture, has higher yields
and therefore has surplus product to export.
0
5
10
15
20
25
30
940 960 980 1000 1020 1040 1060
Standard
Num
ber o
f Con
sum
ers
ExporterImporter
Figure 4. 11 Graphing the standards (exporter - stricter)
Does this situation change the results derived previously? Will consumers in
the importing country now view the imported goods as superior to the domestic
products? Clearly, if the domestic standard in the importing country was set
appropriately, then the importing consumers will react in exactly the same way as
before. Standards are set in order to meet the demands of domestic consumers and
producers. If the standard established is the optimal standard then products produced
under any other standard will be seen as inferior. These resulting welfare changes
will be identical to those outlined in section 4.3.1.
74
4.4 Harmonization
In an attempt to facilitate international trade in organic agricultural products,
a number of parties are calling for the harmonization of organic certification
standards. This harmonization would allow individual countries to develop their
national standards but all certifiers would need to be accredited under the same
international body, eliminating the need for multiple accreditors. There is a strong
push by the International Federation of Organic Agriculture Movements, the Food
and Agriculture Organization of the United Nations and the United Nations
Conference on Trade and Development to seriously consider harmonizing organic
certification, however, there has been little research into the economic consequences
of harmonization. The next section of the chapter will illustrate the welfare
implications of harmonization and will attempt to provide some insight into the
decision to harmonize.
4.4.1 Harmonization when the Importer has the Stricter Standard
To begin, the case where the importing country has a slightly stricter
standard will be examined. In order to harmonize, a choice must be made regarding
the strictness of the standard. Since there are only two countries in the model it will
be assumed that there are three possible locations for the standard. The standard
could be placed at either the importing country’s present standard or the exporting
country’s present standard or it could be located somewhere in between the two.
Each of these possible scenarios will be modelled and discussed.
75
4.4.1.1 Scenario 1
In the first scenario, the stricter standard of the importing country is chosen.
If the international community were to harmonize to the strict standard, there would
be repercussions for both trading partners. The stricter standard would cause an
increase in the exporter’s costs of production. These increases could be due to the
loss of allowable pesticides/fertilizers or due to an increase in conversion times, etc.
The changes in the exporting country will stimulate changes in the world market,
which will, in turn, have effects in the importing nation.
Figure 4.12 illustrates the shift in demand that results from harmonizing to
the stricter standard in the exporting country. Comparing the demand effects of
harmonization with those of negotiating equivalence (Dx), it can be shown that the
new stricter standard will result in changes to both consumer and producer surplus.
At Pw1 (the equivalency price), CS equalled a+b, but as demand declines to Dx’,
the world price decreases to Pw2, resulting in a CS of b+c, a change of c-a.
Producers are also affected by the change in demand and see a fall in their surplus
from c+d+e+f+g+h+i+j+k at Pw1 to d+f+j+k at Pw2. This change results in a loss
of surplus of the area c+e+g+h+i. Overall, the national welfare in the exporting
country will decrease by a-e-g-h-i. However, the shift in demand is not the only shift
experienced by the exporting country; the supply curve will also shift as the stricter
standard means higher costs for producers.
76
77
Sx
Qsx Qsx’Qdx
Qdx’
a b
c e iPw2
QX
PX
Pw1
78
79
80
Dx
81
Dx’
82
jh
g k
Figure 4. 12 Harmonizing to the stricter standard: Demand effects in the exporting country
In Figure 4.13, there is a shift in both demand and supply. Demand changes
due to the imposition of a non-optimal standard, while supply shifts as a result of the
higher costs of the new standard. The supply shift is assumed to be greater than the
demand shift due to the increased costs of implying with the new standard. The
83
shifts in demand and supply cause the world price to increase from Pw1, the initial
equivalency price, to Pw2 as in Figure 4.14; however, the resulting welfare changes
become an empirical question because if the changes are minute, the price may
decrease, although a decreasing price still results in a loss to the exporting country.
Originally consumer surplus was equal to a+b+c+i+f with Dx, but the new price of
Pw2 leaves consumer surplus equal to b with Dx’. The higher prices are detrimental
to consumers, while the higher costs could drive producers out of the market. There
are two forces affecting producer surplus, price and cost. The strength of the two
forces will dictate the resulting changes in producer surplus. Producers began with a
surplus of d+e+g+h+k+l+m+n+o+p+q+r at Pw1 but end with a surplus of
c+d+f+g+i+j+k+l+q+r at Pw2. In this scenario, it appears as though the welfare of
the country decreases as the loss of area a+e+h+m+n+o+p is greater than the gain
of area j, further empirical work would provide more concrete proof. This welfare
loss occurs with only a slight variation in standards. Therefore, it can be assumed
that a larger difference between the standards of the two trading nations would result
in even greater losses.
The importing country also experiences changes due to harmonization. As
the price increases from Pw1 (equivalency price) to Pw2 (harmonization price),
consumers face a decreasing surplus while producers benefit from the higher price.
If on the other hand, the price decreased, there would be an overall welfare increase.
However, in this situation, depicted in Figure 4.15, consumer surplus changes from
g+h+j+k+l+m to g+l and producer surplus increases from i to h+i. National
welfare in the importing country decreases by area j+k+m. Harmonization to the
84
stricter standard appears to have nothing but negative consequences. Welfare
declines in both countries when this route is taken. This would suggest that
equivalency negotiations would be preferred to harmonization in this case.
Figure 4. 13 Harmonizing to the stricter standard: Supply and demand effects in the exporting country
Sx
QsxQsx’QdxQdx’
ab
c
e
g k
j
h
QX
PXExporting Country
d
f i
l
DxDx’
Sx’
mn
opqr
Pw2
Pw1
85
Figure 4. 14 Harmonizing to the stricter standard: Changes to the world price
Sx
Dx
Sm
DmPx
QX
PX PMPW
QW
Pm
Qm
ES
ED
Pw1Pw1 Pw1
QsxQdx QdmQsmQw
Exporting Country
World Market
Importing Country
Qw’
Pw2Pw2 Pw2
Qdx’ Qsx’Qdm’ QM
Dx’
Sx’
ES’
Px’
Qsm’
86
Figure 4. 15 Harmonizing to the stricter standard: Changes in the importing country
4.4.1.2 Scenario 2
In this scenario, the more lenient standard of the exporting country is chosen
as the harmonized standard. This choice causes a decrease in consumer demand in
the importing country but the lower standard will also reduce the costs of production
Pw1
Pw2
Qsm’Qsm Qdm’ Qdm QM
Dm
PM
Sm
g
h
i
j kl
m
Importing Country
87
for producers in the importing country. The degree of the shift will depend in part on
the distance between the two standards. Even if the standards are similar in most
respects there will be some consumers who may now prefer not to purchase
organics, however, decreasing the standard may capture other consumers who prefer
the lower prices and the new standard. Figure 4.16 illustrates the demand shift and
the resulting welfare implications in the importing country. Figure 4.17 shows the
welfare effects on consumers and producers in the importing country of the changes
in supply and demand, while Figure 4.18 demonstrates the effects on the world
market.
88
Figure 4. 16 Harmonizing to the lenient standard: Demand effects in the importing country
Pw1
Pw2
Qsm’Qsm Qdm
QM
Dm
PM
Smg
h
i
j
kl
Importing Country
Dm’
Qdm’
n
r
89
Figure 4. 17 Harmonizing to the lenient standard: Total welfare effects in the importing country
Pw1
Pw2
Qsm’Qsm Qdm QM
Dm
PM
Smg
h
i
j
k
l
Importing Country
Dm’
Sm’
Qdm’
q
no
s
p
rt
90
Px
PX
Pw1Pw2
91
92
Sx
Dx
Sm
Dm
QX
PM PW
QW
Pm
93
94
ES
ED
Pw1
95
Pw1
Qsx Qdx Qdm Qsm Qw
Exporting Country
World Market
96
Importing Country
Qw’
Pw2 Pw2
Qdx’ Qsx’ Qdm’QM
Qsm’
97
Sm’
Dm’
Pm’
98
ED’
99
Figure 4. 18 Harmonizing to the lenient standard: The world market effects
100
Figure 4.16 shows the effects that the shift in demand has on the importing
country. Initially, consumer surplus was equal to area g+h+l at Pw1 and with Dm
but with the shift in demand and price, the surplus changes to h+i+k+r at Pw2 and
with Dm’, a change of i+k+r-g-l. An empirical analysis must be done to determine
if this change is positive or negative. On the producer side, there is an unambiguous
loss as producer surplus decreases from i+n+j to j, a change of –i-n. Overall welfare
cannot be determined, as it will depend on the relative weights of the gain of k+r
versus the loss of g+l+n.
This leads to the case where both the supply and demand curves shift in the
importing country. In Figure 4.17, consumer surplus increases from g+h+o+p at
Pw1 and with Dm to h+i+l+q+r+s+t at Pw2 and with Dm’, however, this increase
is ambiguous as it is difficult to determine the relative sizes of the CS and PS and
further empirical analysis is required. Producer surplus decreases from i+j+n to j+k.
Overall welfare changes depend on the relative sizes of the area lost, g+n+o+p, and
the area gained, k+l+q+r+s+t. From Figure 4.17 it is difficult to determine which
area is larger. If the price effect is larger than the quality effect then harmonization
may be an improvement over equivalency agreements, however if the quality effect
is larger, then the reverse will be true.
Figure 4.19 depicts the situation in the exporting country. There, producers
experience a loss in welfare due to the price decrease; however, consumers gain for
the same reason. Consumer surplus was initially equal to a but with the lower price
increases to a+b+d. Producer surplus shrinks from area b+c+d+e+f+g+h to area
c+e+g+h. National welfare decreases by f. This implies that it would be in the
101
exporter’s best interests to negotiate equivalency rather than harmonize. When the
results from the importing and exporting country are combined it is unclear whether
global welfare decreases or increases. There is a possibility of achieving a welfare
improvement if the price effect in the importing country is greater than the adverse
quality effect. However, it is also possible that, once again, harmonization may
result in a decrease in total world welfare.
102
Figure 4. 19 Harmonizing to the lenient standard: Welfare effects in the exporting country
4.4.1.3 Scenario 3
In the third scenario, the standard is set midway between the two national
standards. This has repercussions in both countries as suppliers and consumers
Sx
QsxQsx’Qdx Qdx’
a
b
c
e gh
QX
PXExporting Country
d
Pw1
Dx
fPw2
103
adjust to the changes in the organic system. While this situation may seem the most
equitable of the three scenarios, there are complexities if the situation involves more
than two parties or if one or more parties have greater political clout than the others.
A central position may no longer be the natural choice. This choice could also be
altered if consumers are not distributed normally.
In the exporting country, a scene similar to scenario one can be set, but in
this situation, the standard is located at a midway point and therefore the shifts in
demand and supply need not be so large. The welfare effects can be analyzed by
examining Figure 4.20. Consumer demand shifts from Dx to Dx’ due to the changes
in the standard, at the same time supply shifts because of the higher costs of
production from Sx to Sx’ but both shifts are less prominent than in the previous two
scenarios. In this illustration, consumers gain as their surplus increases from a+b at
Pw1 to b+c+g at Pw2 as the area lost, a, is smaller than the area gained, c+g. This
gain depends on the respective strengths of the quality and price effects and
therefore is not unambiguous. Empirical data would provide further insight into the
resulting changes. On the other hand, producers unequivocally lose. Their surplus
decreases from c+d+e+f+g+h+i+j+k+l+m+n+o+p+q at Pw1 to d+h+j+k+o at
Pw2. This loss results in an overall welfare loss of the area a+e+f+i+l+m+n+p+q.
In the importing country, as shown in Figure 4.21, consumers gain as their
surplus increases from g+h+n+o+p to h+i+l+n+q+r+s+t. In this case, it would
appear that the price effect outweighs the quality effect and the gain of area
i+l+q+r+s+t is greater than the loss of area g+o+p, however, again this is not
unambiguous. The lower price causes a decrease in producer surplus from i+j to
104
j+k. The impacts on national welfare appear to be positive. The loss of area g+o+p
is smaller than the gain of area k+l+q+r+s+t. The world market effects are shown
in Figure 4.22.
Figure 4. 20 Harmonizing to the median standard: Welfare effects in the exporting country
Sx
QsxQsx’QdxQdx’
a
b
c
e
gk
jh
QX
PXExporting Country
d
f
il
DxDx’
Sx’
m
no
p
q
Pw1
Pw2
105
Figure 4. 21 Harmonizing to the median standard: Welfare effects in the importing country
Pw1
Pw2
Qsm’Qsm Qdm QM
Dm
PM
Smg
h
i
j
k
l
Importing Country
Dm’
Sm’
Qdm’
q
no
s t
pr
106
Figure 4. 22 Harmonizing to the median standard: World market effects
Sx
Dx
Sm
DmPx
QX
PX PMPW
QW
Pm
ES
ED
Pw1
Pw1 Pw1
QsxQdx QdmQsmQw
Exporting Country
World Market
Importing Country
Qw’
Pw2Pw2 Pw2
Qdx’Qsx’
Qdm’QM
Qsm’
Sm’
Dm’
Pm’
ED’
Sx’
Dx’
ES’
Px’
107
It is possible that harmonization could result in an increase in global welfare,
however, in order for this to occur, the gain in welfare in the importing country must
be substantial enough to offset the loss in welfare in the exporting country. If this
does occur, then harmonization would be the preferred option over equivalency
negotiations.
Does the initial distance between the standards affect the results? Even if the
standards are greatly different, we would still be faced with the same ambiguous
results, as the price effect and quality effect will still be the determinants of the
outcome. The demand effects may be more pronounced but so too will the supply
effects. However, the variance in standards may result in the depletion of the excess
demand, as suppliers in the importing country are supplying a sufficient amount to
meet the demand of their domestic consumers.
4.4.2 Harmonization when Exporter has the Strict Standard
Does reversing the standards have a significant effect on the result of the
harmonization process? The case where the exporter has the stricter standard will
now be considered. As discussed previously, the fact that the exporter has the stricter
standard does not make its exports any more desirable to the consumers in the
importing country provided that the optimal standard had already been established.
This implies that the results will be similar to those discussed in the previous
section. In fact, if the trade models are followed they will be exactly the same, only
now the roles are reversed and the losses and gains that the exporter had experienced
will now be felt by the importer and vice versa.
108
World markets will follow the same pattern regardless of whose standard is
stricter. If this model were used to determine the welfare effects of harmonization, it
would seem that in order for harmonization to cause an improvement in global
welfare, certain restrictions must be met. Specifically, if the stricter standard is
established, the welfare improvement in one country must be sufficiently large to
offset the loss in the other. If the lenient standard is chosen, the consumer reaction to
the imported product must not be too vehement. Finally, if the median point is
selected, then the gain in the importing (exporting) country must be greater than the
loss in the exporting (importing) country. These results are outlined in Table 4.2.
It could also be questioned if it would be possible to negotiate harmonization
if one country will be a loser. Why would a politician agree to harmonize if it means
lowering the national welfare in his/her home country? Under these circumstances, it
seems unlikely that harmonization would occur unless trade-offs or transfers are
made to compensate the loser.
109
Table 4.2 - Welfare Effects of Harmonization
Harmonization Choice
Welfare changes in importing country
Welfare changes in exporting country
Overall world welfare changes
Scenario 1: Stricter standard is chosen
Case 1: Decreases, area j+k+m is lost(Figure 4.15)
Decreases if area a+e+h+m+n+o+p > area j (Figure 4.13)
Unambiguously decreases
Case 2: Decreases, area j+k+m is lost
Increases if area a+e+h+m+n+o+p< area j
Increases if area j is greater then the loss of areas a+e+h+m+n+o+p in Figure 4.13 and j+k+m in Figure 4.15, decreases otherwise.
Scenario 2: Lenient standard is chosen
Case 1: Decreases if area g+n+o+p> area k+l+q+r+s+t (Figure 4.17)
Decreases, area f is lost (Figure 4.19)
Unambiguously decreases
Case 2: Increases if area g+n+o+p < area k+l+q+r+s+t
Decreases, area f is lost
Increases if area k+l+q+r+s+t > then the loss of areas g+n+o+p in Figure 4.17 and f in Figure 4.19, decreases otherwise.
Scenario 3: Midway standard is chosen
Case 1: Decreases if area g+o+p> area k+l+q+r+s+t(Figure 4.21)
Decreases, area a+e+f+i+l+m+n+p+q is lost (Figure 4.20)
Unambiguously decreases
Case 2: Increases if area g+o+p < area k+l+q+r+s+t
Decreases, area a+e+f+i+l+m+n+p+q is lost
Increases if area k+l+q+r+s+t > than the loss of areas g+o+p in Figure 4.21 and a+e+f+i+l+m+n+p+q in Figure 4.20, decreases otherwise
110
4.5 The Implications of Differing Standards
Organic standards vary around the globe. When considering a multi-country
model, it is clear that the standard level may vary for each individual country,
leaving a wide array of standards to deal with. It is not as easy to see where an
internationally harmonized standard would be located on this spectrum. The degree
to which standards differ will have a profound effect on the extent of demand and
supply curve shifts. The above models have attempted to demonstrate the welfare
impacts of varying standards. If standards are similar then the resulting shifts would
be small. Larger shifts in standards would have more serious repercussions. As was
determined, negotiating equivalency will be beneficial only when there are small
differences in standards. When the difference between the standards grows larger,
the consequences are ambiguous.
Standards are created in order to achieve a purpose; in some cases they are
protectionist in nature, while in other cases they are necessary in order to ensure the
survival of the industry. Standards differ because of natural differences in the
environment as well as differences in consumer preferences. It is difficult to prove a
case for the harmonization of organic standards based on this graphic economic
analysis. There is too much unknown information and there are very few cases of
harmonization around the world to compare with. Bhagwati and Srinivasan (1996)
suggest that if optimal policies are being pursued then diversity between standards
should be expected because of differences in consumer preferences. If differences in
standards are beneficial, it could then be expected that harmonization would, under
some circumstances, lower national and global welfare.
111
4.6 The Effects of Distribution Shape
Throughout this chapter, it has been assumed that consumers are distributed
normally around the standard. However, if this assumption is relaxed, it could have a
important effect on economic welfare. What if all consumers have homogeneous
preferences? Then instead of being normally distributed around a mean, all
consumers would be found on the mean (assuming the standard is set appropriately)
as in Figure 4.23. If consumer tastes varied across countries but were homogeneous
within a country, it may inhibit the development of a harmonized standard, as every
consumer would be unhappy with the changes.
Figure 4. 23 Consumers with homogeneous tastes
Generally, consumers are not identical and do differ in their opinions
regarding standards. That leads to the idea of a skewed distribution, where the
distribution of consumers is not symmetrical around the mean..
An asymmetric distribution may drastically alter the effects of adopting a
lower or higher standard. Consumer effects may be reduced if a large proportion of
% of people who agree with standard
Standard level S
112
consumers are located on one side of the standard. In this model, it was assumed that
the distributions were normal in shape and therefore that the optimal standard was
chosen. However, as the distribution moves away from a normal shape it would
become increasingly difficult to set an optimal standard.
Both the degree of similarity between the standards and the distribution of
consumers around the mean (or standard) will have an effect on the shifts in supply
and demand that occur when equivalency has been negotiated or when
harmonization has taken place. A greater understanding of these links will help
further our knowledge of the economics of harmonization but are beyond the scope
of this thesis.
4.7 Conclusion
As tempting as it may be to jump to conclusions regarding the outcomes in
this chapter, it is as of yet unclear whether harmonization will be economically
beneficial or detrimental to world trade in organics. While it is clear that both the
shape of consumer preference distribution and the extent of the differences in the
standards will have major ramifications on the changes in national welfare, it is less
clear which of the discussed options is superior.
It cannot be stated whether harmonization is welfare enhancing when
compared to equivalency negotiations. In some instances it would appear that
harmonizing the organic system would actually be detrimental to those it is intended
to benefit. In other cases, harmonization may be the superior choice. Regardless, it is
113
certain that further analysis is needed in order to shed more light on some of the
results provided by this chapter.
114
Chapter 5Trade Model Simulation
5.1 Introduction
In Chapter 4, a theoretical trade model was developed to illustrate the
welfare effects of harmonizing organic standards. Several aspects of the theoretical
model were ambiguous, suggesting further insights might be gained from
explanation with numerical values. This chapter sheds additional light on the
ambiguity presented by the theoretical model by simulating the impacts of
equivalency negotiations and harmonization. This will be done for several cases
over a range of values to illustrate the effects of harmonization and granting
equivalency. It is important to note that no attempt is made to provide actual
empirical estimations of the economic effects of these policies for particular
markets.
The goal of this chapter is to provide additional information as to whether
harmonization is desirable. In other words, will harmonization enhance welfare for
organic consumers and producers? Based on the theoretical model, it appears that it
does not, however, this simulation will provide numerical simulations of the
theoretical approach
101
5.2 Market Demand for Organic Products
The aggregate market demand curve is composed of each individual’s
demand curve for a product at a given price. To understand how changing a standard
from its optimum position to some alternative will affect welfare, a link between
standard placement and demand must be made. It is assumed that, contrary to the
standard assumption that consumers are homogeneous, consumers actually have
heterogeneous preferences for organic standards. This assumption is necessary to
simulate the marketplace where standards differ across countries. These differences
allow for the assumption that consumer preferences differ across countries. It is also
assumed that the population distribution is normal in appearance and that the
optimal standard in a particular country is found at the population mean. At the
mean, the largest number of consumers will have their preferences reflected in the
standard. As the standard changes, and moves away from the mean, overall
consumer demand will decrease, as the number of consumers who prefer that
standard decreases. Using these assumptions, a normal distribution was generated to
allow construction of market demand curves. These curves, along with arbitrarily set
demand and supply parameters, will be used to establish excess supply and excess
demand curves, which will provide equilibrium prices and quantities.
5.2.1 Calculating Market Demand
Using Excel, normal distributions with various means ( ) and standard
deviations (s.d.) were created. The ‘normdist’ function within Excel generates a set
of numbers that correspond to a normal distribution. The numbers generated
represent the population located at each standard possibility. The generated numbers
102
were multiplied by 1000 to approximate the location of 1000 people under the
distribution. The largest population of consumers is found at the mean of the
distribution. As one moves way from the mean, there are fewer and fewer consumers
at each standard point. Figure 5.1 shows a generated normal distribution with a mean
of 1000 and a standard deviation of 10. These parameters will be used to illustrate
the development of the trade model for the remainder of the chapter.
0
5
10
15
20
25
30
35
40
45
940 960 980 1000 1020 1040 1060
Standard
Popu
latio
n of
100
0
Figure 5.1 A normally distributed population (mean = 1000, s.d.=10)
Changing the organic standard will have effects on the aggregated market
demand curve. To calculate aggregate demand, the demand curve must be estimated
at all points under the distribution. Those consumers located at the mean have
preferences that are satisfied by the current standard (the optimal standard). These
consumers were arbitrarily assigned an inverse demand curve (hereafter referred to
as the demand curve) of . At the point 1001, one point away from the
103
mean, the demand curve is equal to ; at the point 1002, it is equal to
; at the point 999, the demand curve is again equal to
and so on. Table 5.1 shows the demand intercepts and the quantity
of people located at each point under the normal distribution (µ=1000, s.d. =10) for
the optimal standard placement (1000) and a standard located one standard deviation
from the mean (1010 or 990). The intercept was determined for all points under the
distribution until it was equal to 0 (40 points on either side of the mean for the
optimal standard).
104
Table 5.1 - Population and Demand Intercepts (mean = 1000, s.d. =10)
Standard Number of
People
Demand at
optimum
Demand at 1 s.d.
Standard Number of
People
Demand at
Optimum
Demand at 1 s.d.
960 0.01338 0 0 1001 39.6953 78 62961 0.01987 2 0 1002 39.1043 76 64962 0.02920 4 0 1003 38.1388 74 66963 0.04248 6 0 1004 36.8270 72 68964 0.06119 8 0 1005 35.2065 70 70965 0.08727 10 0 1006 33.3225 68 72966 0.12322 12 0 1007 31.2254 66 74967 0.17226 14 0 1008 28.9692 64 76968 0.23841 16 0 1009 26.6085 62 78969 0.32668 18 0 1010 24.1971 60 80970 0.44319 20 0 1011 21.7852 58 78971 0.59525 22 2 1012 19.4186 56 76972 0.79155 24 4 1013 17.1369 54 74973 1.04209 26 6 1014 14.9728 52 72974 1.35830 28 8 1015 12.9518 50 70975 1.75283 30 10 1016 11.0921 48 68976 2.23945 32 12 1017 9.40491 46 66977 2.83270 34 14 1018 7.89502 44 64978 3.54746 36 16 1019 6.56158 42 62979 4.39836 38 18 1020 5.39910 40 60980 5.39910 40 20 1021 4.39836 38 58981 6.56158 42 22 1022 3.54746 36 56982 7.89502 44 24 1023 2.83270 34 54983 9.40491 46 26 1024 2.23945 32 52984 11.0921 48 28 1025 1.75283 30 50985 12.9518 50 30 1026 1.35830 28 48986 14.9728 52 32 1027 1.04209 26 46987 17.1369 54 34 1028 0.79155 24 44988 19.4186 56 36 1029 0.59525 22 42989 21.7852 58 38 1030 0.44319 20 40990 24.1972 60 40 1031 0.32668 18 38991 26.6085 62 42 1032 0.23841 16 36992 28.9692 64 44 1033 0.17226 14 34993 31.2254 66 46 1034 0.12322 12 32994 33.3225 68 48 1035 0.08727 10 30995 35.2065 70 50 1036 0.06119 8 28996 36.8270 72 52 1037 0.04248 6 26997 38.1388 74 54 1038 0.02920 4 24998 39.1043 76 56 1039 0.01987 2 22999 39.6953 78 58 1040 0.01338 0 20
1000 39.8942 80 60
105
A spreadsheet was developed to calculate the quantities demanded at varying
price levels ($5-$80). The quantities were calculated by inverting the demand
equation in order to solve for (quantity demanded). These quantities were then
multiplied by the number of people located at each point to determine the total
amount purchased at a given price by a population with preferences for a certain
standard. The sum of the various quantities demanded at each price level by each
preference group gives the total quantity demanded at that price level by the
population. These quantities are then used to estimate an aggregated demand curve.
The aggregated demand curves are generated using the price and quantity
information above and can be graphed given an established standard.
If the standard is altered, it will move along the horizontal axis away from
the mean. As the standard moves away from the mean, fewer and fewer people will
approve of the standard. This decrease in approval can be translated into a decrease
in demand. Figure 5.2 illustrates the declining demand as the standard moves 1 and
then 2 standard deviations away from the mean.
106
Figure
5.2 Demand curve estimates (mean = 1000, s.d. =10)
As the curves are generated from a normal distribution, countries with the
same standard deviations will have the same demand curve. The same number of
consumers will be found at all points under both curves, even if the means are
different. Different variances would lead to different demand curves; however at this
stage it is desirable to maintain similar distributions (and therefore variances). Table
5.2 shows the demand curves calculated at various deviations for a population with a
mean of 1000 and a standard deviation of 10.
Table 5.2 - Demand Curve Equations
Standard Placement Demand CurveOptimal (mean) -0.004x + 64.06+/- 0.5 standard deviation -0.004x + 62.35+/- 1 standard deviations -0.004x + 56.69+/- 2 standard deviations -0.004x + 39.83
010
20304050
6070
8090
-15000 -10000 -5000 0 5000 10000 15000 20000
Quantity
Pric
eOptimal
1 s.d.2 s.d.
107
5.3 World Trade in Organic Products
The establishment of the excess supply and demand curves is necessary to
estimate the welfare changes in our theoretical model. In order to derive the excess
supply and demand curves, hereinafter called ES and ED, a supply curve for both
the importing nation and the exporting nation must be determined. In this case, the
supply curves for the importing and the exporting country were arbitrarily set and
are equal to and respectively (See Figures 5.3 and 5.4).
Using the demand and supply curves of the two trading partners, the excess supply
and demand curves can be calculated by subtracting the difference between the
quantity demanded and the quantity supplied at various price levels above or below
the country’s equilibrium price. At the world price, demand will exceed supply in
the importing country creating the ED curve; in the exporting country, supply will
exceed demand creating the ES curve. The world price and quantity traded are set at
the equilibrium point of ES and ED. Figure 5.5 illustrates the ES and ED curves for
various trade scenarios.
108
Exporting Country
0102030405060708090
-15000 -10000 -5000 0 5000 10000 15000 20000
Quantity
Pric
eOptimal1 s.d.2 s.d.
Supply
Figure 5.3 Demand and supply curves in the exporting country
Importing Country
0102030405060708090
-15000 -10000 -5000 0 5000 10000 15000 20000
Quantity
Pric
e
2 s.d.
1 s.d.optimalSupply
Figure 5.4 Demand and supply for organic products in the importing country
The slope and intercept functions within Excel were used to determine the
equations for the ES and ED curves. This function uses the data points to generate
109
an estimate for the slope and intercept of the line. Table 5.3 gives the calculated
equations.
Table 5.3 - ES and ED equations
Scenario ES EDEquivalency 0.0022x + 39.37 -0.0035x + 52.37Harm-stricter 0.0022x + 39.72 -0.0035x + 58.88Harm-lenient 0.0022x + 39.37 -0.0035x + 51.20Harm-median 0.0022x + 40.64 -0.0035x + 56.78
Using this format, 3 different scenarios were developed. In Scenario 1, both
the importer and the exporter have the same standard deviation, while their means
differ. In Scenario 2, both the means and the standard deviations differ. In Scenario
3, the standard deviations are the same, the means differ and the number of iterations
between the individual demand curves decreases by 4. This implies that people’s
preferences are stronger than they were in the case where the iterations decreased by
2. For example, someone located at standard 1001 will now have a demand curve
equal to .
110
World Market
0102030405060708090
-20000 -10000 0 10000 20000 30000
Quantity
Pric
e
ES-equivalencyED-equivalencyES-harm. stricterED-harm. stricterES-harm. medianED-harm. medianES-harm. lenientED-harm. lenient
Figure 5.5 Excess supply and demand curves for various trade scenarios
111
5.4 The Simulation
Using the framework developed above, it is possible to determine the welfare
effects of negotiating equivalency and harmonization under the 3 scenarios. The
different scenarios will examine the impacts of changing the distribution variance,
altering the means and changing the individual demand curves. A graphic
description will be provided of the case where the mean is 1000 in the exporting
country and 1010 in the importing country and the standard deviation is 10 in both
(Scenario 1, Case 1). The figures developed in the theoretical framework will be
used to illustrate the welfare effects. More specifically, the consumer and producer
surpluses for each country will be calculated. The situations of autarky, equivalency,
and harmonization to the stricter, lenient and median standard will be examined.
Following the graphic depiction of the trade effects there will be a brief discussion
of the welfare implications for each scenario and case.
Clearly, a situation of open borders with no standards would be the welfare
maximizing option for organic trade, however, due to the fact that consumer
preferences are different amongst trading partners, this option is infeasible and
therefore is not examined in the model. Without the use of standards there would be
no way for consumers to determine if the products they purchased were organic, and
demand (but not desire) for organic products would not exist. As a result, an open
border scenario is not realistic.
It is important to note that in cases where standards are harmonized or
equivalency is negotiated, it is assumed that demand and supply will shift by the
number of standard deviations necessary to reach an identical standard. For example,
in the case where the mean is 1000 in the exporting country and 1010 in the
112
importing country and the standard deviation is 10 in both, each country will have to
adjust their standard by 1 standard deviation to conform to their trading partner’s
standard. To harmonize to the median standard, the standards need only be adjusted
by 0.5 of a standard deviation.
5.4.1 Scenario 1, Case 1
In this case, the exporter’s optimal standard is located at 1000 while the
importer’s optimal standard is located at 1010. Both populations have a standard
deviation of 10. Using this information, a population distribution, demand curves
and excess supply and demand curves were determined to calculate welfare effects
of 5 different trade options. The first is the situation of autarky (no trade), the second
is equivalency negotiations, while the final three examine harmonizing to the
stricter, lenient and median standards. Figures 5.6 through to 5.18 and Table 5.4
through to 5.12 use the model developed in Chapter 4, along with the equations,
prices and quantities calculated in this chapter, to calculate consumer and producer
surpluses.
113
Figure 5.6 Autarky
Table 5.4 – Welfare results of autarky
Welfare Exporter ImporterCS 76,209.76 3,356.33PS 95,285.35 25,191.91Total Welfare 171,495.11 28,548.24
1295.88
8.5
64.06
Sx
Dx
Qx
Px
58.88
20
64.06
Sm
Dm
Qm
Pm
6173.33
39.37
Potential Exporter Potential Importer
114
Figure 5.7 Equivalency: Changes in demand in the importing country
Table 5.5 – Welfare effects of equivalency in the importing country
Figure 5.8 Equivalency: World market changes
20
Sm
Dm
Qm
Pm
56.69
Dm’
52.3744.39
30758131079.12
Pw
Importer
Welfare ImporterCS 18,911.25PS 9,914.54Total Welfare 28,825.79
ED’
Pw
Pw
52.37
39.37
2280.70
44.39
ES
58.88
ED
World Market
115
Figure 5.9 Equivalency:Welfare changes in the exporting country
Table 5.6 - Welfare results of equivalency in the exporting country
8.5
64.06
Sx
Dx
Qx
Px
6173.33
39.3744.39
4917.5 7178
Exporter
Pw
Welfare ExporterCS 48,363.61PS 128,809.21Total Welfare 177,172.82
116
Figure 5.10 Harmonizing to the stricter standard: Changes in the exporting country
Table 5.7 – Welfare effects of harmonizing to the stricter standard for the exporter
Figure 5.11 Harmonizing to the stricter standard: Changes to the world price
8.5
56.69Sx
Dx
Qx
Px
4243.33
39.72
47.12
2392.5 7724
Dx’
Sx’
18.5
Welfare ExporterCS 11,448.11PS 149,150.44Total Welfare 160,598.55
Pw
Pw
39.3739.72
3361.40
47.12ES
58.88
ED
ES’
117
Figure 5.12 Harmonizing to the stricter standard: Changes to the importing country
Table 5.8 – Welfare effects of harmonizing to the stricter standard for the importer
20
64.06
Sm
Dm
Qm
Pm
904
47.12
4235
Pw
Welfare ImporterCS 35,870.45PS 12,258.24Total Welfare 48,128.69
118
Figure 5.13 Harmonizing to the lenient standard: Changes in the importing country
Table 5.9 – Welfare effects of harmonizing to the lenient standard for the importer
Figure 5.14 Harmonizing to the lenient standard: World market effects
20
64.06
Sm
Dm
Qm
Pm
1373.33
43.94
3187.5
Pw
Dm’10
Sm’
Welfare ImporterCS 20,320.31PS 23,305.41Total Welfare 43,625.72
ES
ED
Pw
Pw
39.37
2075.44
51.2058.88
ED’
43.94
119
Figure 5.15 Harmonizing to the lenient standard: Changes in the exporting country
Table 5.10 – Welfare effects of harmonizing to the lenient standard for the exporter
Welfare ExporterCS 50,601.80PS 125,599.36Total Welfare 176,201.16
8.5
64.06
Sx
Dx
Qx
Px
Pw43.94
5030 7088
120
Figure 5.16 Harmonizing to the median standard: Changes in the exporting country
Table 5.11 - Welfare effects of harmonizing to the median standard for the exporter
Figure 5.17 Harmonizing to the median standard: World market effects
8.5
64.06
Sx
Dx
Qx
Px
62.35
13.5
46.8740.64
Sx’
Dx’
Pw
66743870
5427.78
Welfare ExporterCS 29,953.80PS 111,355.69Total Welfare 141,309.49
ES
ED
Pw
Pw
40.64
2831.58
56.7858.88
ED’
46.87
ES’
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Figure 5.18 Harmonizing to the median standard: Changes in the importing country
Table 5.12 – Welfare effects of harmonizing to the median standard for the importer
5.5 Results
The welfare implications of the three scenarios will be reported in this
section. As mentioned previously, changing the mean or the variance of a population
may alter resulting world welfare. In each scenario, three possible cases were
examined. Using the results from these estimations, some conclusions can be drawn
about the effects of harmonizing organic standards internationally.
Note that in all cases, for each standard deviation the standard was moved,
the supply curve shifted by 10. For example, if harmonizing to the stricter standard
20
64.06
Sm
Dm
Qm
Pm
1062.33
46.87
3870
Pw
Dm’15
Sm’
62.35
Welfare ImporterCS 29,953.80PS 16,928.23Total Welfare 46,882.03
122
was chosen and the standards deviated from each other by 1, the supply curve would
shift from to in the exporting country as a stricter
standard implies higher costs for producers. If the standard was shifted by half of a
deviation, the supply curve would increase/decrease by 5. This was held constant for
all the scenarios and cases tested. To see if this affected the results, a case was run
where the supply curve only shifted by 5/2.5. The rankings of the trade options did
not change with the smaller shift in the supply curve, thus it was determined that the
shift in supply did not have a major effect on the results.
5.5.1 Scenario 1
In Scenario 1 the importing and exporting countries have the same variance
in their population, but their standards are not identical. Therefore, the means of the
two populations are located at different points along the standard spectrum. Three
cases were examined using these specifications.
5.5.1.1 Case 1
In Case 1, the mean was set at 1000 for the exporter and 1010 for the
importer. The standard deviations equaled 10. Table 5.13 summarizes consumer and
producer surplus and total surplus for all the trade options in Case 1. The results
indicate that, in order from most preferred to least preferred, the scenarios are ranked
as follows: harmonization to the lenient standard, harmonization to the stricter
standard, equivalency, autarky, and harmonization to the median standard. The
option with the highest world welfare is that of harmonizing to the lenient standard.
The importer would prefer to harmonize to their stricter standard and the exporter
123
would prefer to negotiate equivalency. Harmonization to the lenient standard would
be the welfare maximizing option in this case.
Table 5.13 - Welfare results for Scenario 1, Case 1,
Scenario CS PSTotal
Surplus
Total between 2
nations World Exporter ImporterAutarky Exporter 76,209.76 95,285.35 171,495.11 200,043.35 4 3 5Importer 3,356.33 25,191.91 28,548.24EquivalencyExporter 48,363.61 128,809.2 177,172.82 205,998.61 3 1 4Importer 18,911.25 9,914.54 28,825.79Harmonization-stricterExporter 11,448.11 149,150.4 160,598.55 208,727.24 2 4 1Importer 35,870.45 12,258.24 48,128.69Harmonization-lenientExporter 50,601.8 125,599.4 176,201.16 219,826.88 1 2 3Importer 20,320.31 23,305.41 43,,625.72Harmonization-medianExporter 29,953.8 111,355.7 141,309.49 188,191.52 5 5 2Importer 29,953.8 16,928.23 46,882.03
5.5.1.2 Case 2
In Case 2, the importer has an optimal standard located at 1015, while the
exporter’s optimal standard remains at 1000. The standard deviation is now 15.
Table 5.14 illustrates the welfare implications for this case. The distance between
the two standards has now increased compared to Case 1. This increase implies
greater divergence between the two standards. The increased divergence changes the
order of preferred trade scenarios. As in case 1, harmonization to the lenient
standard is still the preferred option and the individual countries still prefer
harmonizing to the stricter standard (importer) and equivalency (exporter), however,
124
the ranking of the scenarios based on their welfare scores has changed. The order in
terms of world welfare scores is now: harmonization to the lenient standard, autarky,
equivalency, harmonization to the median standard and harmonization to the stricter
standard. This differs from the case where the standards were initially closer
together. Therefore one can conclude that an increase in the divergence of standards
will lead to greater difficulty in harmonizing standards and negotiating equivalency,
and after the primary choice, autarky is the second best option.
Table 5.14 - Welfare results for Scenario 1, Case 2,
Scenario CS PSTotal
Surplus
Total between 2
nations World Exporter ImporterAutarky Exporter 57,194.51 71,499.82 128,694.33 148,426 2 3 4Importer 2,321.69 17,409.98 19,731.67EquivalencyExporter 42,366.01 87,734.44 130,100.45 143,041.8 3 1 5Importer 7,469.11 5,472.24 12,941.35Harmonization-stricterExporter 3,087.61 50,086.44 53,174.05 91,055.6 5 5 1Importer 30,615.31 7,266.24 37,881.55Harmonization-lenientExporter 4,4698.2 85,088.89 129,787.09 150,911.58 1 2 3Importer 8,364.05 12,760.44 21,124.49Harmonization-medianExporter 21,092.51 74,529 95,621.51 127,808.02 4 4 2Importer 21,092.51 11,094 32,186.51
5.5.1.3 Case 3
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In Case 3, the importer has their optimal standard located at 1020, while the
exporter still remains at 1000. In this case, the standard deviation equals 20 for both
countries. As the standards get even further apart, the most favorable trade option
changes again. In Case 3, the trade scenarios are ranked as follows: autarky,
harmonization to the lenient standard, equivalency negotiations, harmonization to
the median standard and harmonization to the stricter standard (Table 5.15). The
divergence in trade standards makes it uneconomical to trade in organic products
and instead a situation of autarky is preferred. As in the previous two cases, the
importer would still prefer to harmonize to its stricter standard, while the exporter
would still prefer to negotiate equivalency agreements. The examination of the three
cases where the difference between the standards increases demonstrates that
harmonization will only be beneficial if the standards are similar to begin with. If the
standards are dissimilar it will be difficult to harmonize and world welfare will not
increase.
Scenario CS PSTotal
Surplus
Total between 2
nations World Exporter ImporterAutarky Exporter 44,501.78 55,609.54 100,111.32 114,198.06 1 3 3Importer 1,656.73 12,430.01 14,086.74 Equivalency Exporter 38,193.80 62,350.09 100,543.89 105,879.16 3 1 5Importer 2,311.25 3,024.02 5,335.27 Harmonization-stricter Exporter 308.11 31,329.00 31,637.11 63,206.42 5 5 1Importer 27,195.31 4,374.00 31,569.31 Harmonization-lenient Exporter 40,230.45 60,074.01 100,304.46 111,961.00 2 2 4Importer 2,832.20 8,824.34 11,656.54 Harmonization-median
126
Exporter 14,445.31 50,523.76 64,969.07 87,291.54 4 4 2Importer 14,445.31 7,877.16 22,322.47
Table 5.15 - Welfare results for Scenario 1, Case 3,
5.5.2 Scenario 2 In the second scenario, not only do the optimal standards differ but the
standard deviations are different as well. Again, three cases will be examined to
determine the effects of altering standards on world welfare.
5.5.2.1 Case 1
In Case 1, the optimal standard for the exporter is 1010, while it is 1020 for
the importer. The standard deviation is 5 for the exporter and 10 for the importer.
This results in the following rankings of the trade options: harmonization to the
lenient standard, autarky, equivalency, harmonization to the median standard and
harmonization to the stricter standard. Again as in the first scenario, harmonization
to the lenient standard is preferred when the standards are similar even when the
variances differ. Table 5.16 gives the welfare calculations for the different trade
options.
Table 5.16 - Welfare results for Scenario 2, Case 1,
Scenario CS PSTotal
Surplus
Total between2 nations World Exporter Importer
Autarky Exporter 99,702.87 12,4663.9 224,366.77 252,915 2 3 4Importer 3,356.33 25,191.91 28,548.24 Equivalency Exporter 77,750.45 149,073.2 226,823.66 244,246.1 3 1 5Importer 5,173.2 12,249.25 17,422.45 Harmonization-
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stricterExporter 9,923.51 50,265.64 60,189.15 97,705.76 5 5 2Importer 21,582.45 15,934.16 37,516.61 Harmonization-lenient Exporter 80,581.51 145,618.6 226200.07 261,174.4 1 2 3Importer 12,575.11 22,399.26 34974.37 Harmonization-median Exporter 40,815.61 100,996.8 141,812.45 180,767.7 4 4 1Importer 18,210.61 20,744.64 38,955.25
5.5.2.2 Case 2
In Case 2, the standard deviations are set at 10 and 15 for the exporter and
importer respectively. The optimal standards can be found at 1000 for the exporter
and 1030 for the importer. In this situation there is a larger discrepancy between the
standards. This results in an interesting situation, where if the countries chose to
negotiate equivalency or harmonize to the lenient standard, the importer becomes
the exporter and the exporter becomes the importer, however, this then alters the
shift in demand. This role change is due to the large changes in demand that occur
because of the changes to the standards. Now the exporter (previously the importer)
has a demand curve at its optimum point, and the importer (previously the exporter)
experiences a decrease in demand due to the importation of products from a country
with a differing standard. This causes the roles to switch again, and so on15.
Inevitably, neither country will agree to trade and this results in a situation of
autarky. Keeping this in mind, the rankings are as follows: autarky, harmonization to
the median standard and harmonization to the stricter standard (neither
harmonization to the lenient standard nor equivalency negotiations will occur). The
15 A cycle would ensue with the importer and exporter changing roles. This is due to the large decrease in demand that is a result of strong consumer preferences. This is an interesting result that could be changed if the decreases in demand due to the importation of foreign organics was not so large.
128
importer would still prefer to harmonize to their stricter standard, while in this case
the exporter (who becomes the importer) would prefer autarky. Table 5.17 provides
the welfare calculations and the rankings.
Table 5.17 - Welfare results for Scenario 2, Case 2,
Scenario CS PSTotal
Surplus
Total between 2
nations World Exporter ImporterAutarky Exporter 76,209.76 95,285.35 171,495.11 191,119.2 1 1 3Importer 2,309.98 17,314.12 19,624.1Equivalency-reverts to autarkyExporter (now importer) 76,209.76 95,285.35 171,495.11 191,119.2 1 1 3Importer (now exporter) 2,309.98 17,314.12 19,624.1Harmonization-stricterExporter 0 19,684.09 19,684.09 52,644.11 3 3 1Importer 24,500 8,460.02 32,960.02Harmonization-lenient-reverts
129
to autarkyExporter (now importer) 76,209.76 95,285.35 171,495.11 191,119.2 1 1 3Importer (now exporter) 2,309.98 17,314.12 19,624.1Harmonization-medianExporter 11,809.8 24,492.25 36,302.05 56,041.94 2 2 2Importer 5,577.8 14,162.09 19,739.89
5.5.2.3 Case 3
In Case 3, the standard deviations are equal to 10 for the exporter and 20 for
the importer and the means are equal to 1000 and 1020 respectively. As with the
previous case, the importer and exporter’s roles shift when organic standards are
harmonized to the lenient standard or when equivalency negotiations take place and
thus this implies that autarky will be pursued. In this situation, autarky would be the
preferred trade option as it maximizes world welfare. Autarky is followed by
harmonizing to the median standard and harmonizing to the stricter standard. The
importer would prefer to harmonize to its own stricter standard and the exporter still
prefers autarky. Table 5.18 illustrates the surpluses and rankings for case 3.
Table 5.18 - Welfare results for Scenario 2, Case 3,
Scenario CS PSTotal
Surplus
Total between 2
nations World Exporter ImporterAutarky
Exporter76,209.7
695,285.
35 171,495.11 185,499.5 1 1 3
Importer 1,719.4412,284.
97 14,004.41 Equivalency-reverts to autarky Exporter (now importer)
76,209.76
95,285.35 171,495.11 185,499.5 1 1 3
Importer (now exporter) 1,719.44
12,284.97 14,004.41
Harmonization-stricter Exporter 5.51 12,365. 12,370.95 34,832.8 3 3 1
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44
Importer 16,046.1
16,415.7
4 22,461.85 Harmonization-lenient-reverts to autarky Exporter (now importer)
76,209.76
95,285.35 171,495.11 185,499.5 1 1 3
Importer (now exporter) 1,719.44
12,284.97 14,004.41
Harmonization-median
Exporter29,837.8
151,710.
76 81,548.57 97,907.05 2 2 2
Importer 4,882.8111,475.
67 16,358.48
5.5.3 Scenario 3
In the third scenario, the optimal standards are still different in the two
trading countries, but the standard deviations are the same. In order to see what
occurs when consumers have strong preferences, the demand curve has been
changed. Instead of the intersection point decreasing by two at every point along the
distribution; it will now decrease by four. Changing the standard now causes a more
rapid decrease in consumer approval.
5.5.3.1 Case 1
In Case 1, the exporter’s optimal standard is located at 1000, while the
importer’s is at 1010. Both populations have a standard deviation of 5. In this
circumstance, the importer and exporter again choose autarky over harmonization to
the lenient standard or negotiating equivalency. The trade options are ranked in the
following order: autarky, harmonization to the median standard and harmonization
to the stricter standard. In this case, the exporter would prefer a situation of autarky
and the importer would prefer to harmonize to its stricter standard. Table 5.19
depicts the welfare results of the various trade options.
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Table 5.19 - Welfare results for Scenario 1, Case 1,
Scenario CS PSTotal
SurplusTotal between
2 nations World Exporter ImporterAutarky Exporter 76,326.47 95,415.81 171,742.28 200,342.45 1 1 3Importer 3,365.87 25,234.3 28,600.17Equivalency-reverts to autarkyExporter (now importer) 76,326.47 95,415.81 171,742.28 200,342.45 1 1 3Importer (now exporter) 3,365.87 25,234.3 28,600.17Harmonization-stricterExporter 0 32,005.21 32,005.21 82,817.97 3 3 1Importer 39,205.51 11,607.25 50,812.76Harmonization-lenient-reverts to autarkyExporter (now importer) 76,326.47 95,415.81 171,742.28 200,342.45 1 1 3Importer (now exporter) 3,365.87 25,234.3 28,600.17Harmonization-medianExporter 19,687.87 65,843.56 85,531.43 124,667.72 2 2 2Importer 19,687.81 19,448.48 39,136.29
5.5.3.2 Case 2
In the second case, the population has a standard deviation of 10. The
optimal standards remain at 1000 and 1010, as in Case 1. Interestingly, in this
situation, the roles of the exporter and the importer are not reversed even though the
variance is larger (most likely due to the fact that the standards are only one
deviation apart to begin with). Instead they remain in their respective roles and
world welfare is maximized by the following trade options: autarky, harmonization
to the lenient standard, equivalency negotiations, harmonization to the median
standard and harmonization to the stricter standard. The exporter now prefers
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equivalency negotiations, while the importer still prefers harmonizing to their
stricter standard. The welfare results are illustrated in Table 5.20.
Table 5.20 - Welfare results for Scenario 3, Case 2,
Scenario CS PSTotal
Surplus
Total between 2
nations World Exporter ImporterAutarky Exporter 40,088.58 50,093.94 90,182.52 102,371.63 1 3 3Importer 1,435.26 10,753.85 12,189.11EquivalencyExporter 33,702.05 56,977.69 90,679.74 95,340.8 3 1 5Importer 1,960.2 2,700.86 4,661.06Harmonization-stricterExporter 320 27,522.81 27,842.81 55,099.2 5 5 1Importer 23,461.25 3,795.14 27,256.39Harmonization-lenientExporter 35,616.8 54,802.81 90,419.61 101,276.43 2 2 4Importer 2,856.05 8,000.77 10,856.82Harmonization-medianExporter 13,494.01 47,262.76 60,756.77 81,078.44 4 4 2Importer 13,494.01 6,827.66 20,321.67
5.5.3.3 Case 3
In the final case, the divergence between the standards increases even
further. The exporter remains at 1000 but the importer’s optimal standard is now at
1020. The standard deviation is 20 for both countries. As in Case 1, the exporter and
importer find themselves in a never-ending cycle of decreasing demand curves and
thus will not choose to negotiate equivalency or harmonize to the lenient standard.
Instead autarky will be pursued. The rankings are similar to the previous two cases,
with autarky being the preferred trade option and harmonization to the stricter
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standard being the least preferred option. The individual countries have the same
preferences as in Case 1. Table 5.21 presents the welfare results of this case.
Table 5.21 - Welfare results for Scenario 3, Case 3,
Scenario CS PSTotal
Surplus
Total between 2
nations World Exporter ImporterAutarky Exporter 12,306.31 15,395.29 27,701.6 29,426.44 1 1 3Importer 202.27 1,522.57 1,724.84Equivalency-reverts to autarkyExporter (now importer) 12,306.31 15,395.29 27,701.6 29,426.44 1 1 3Importer (now exporter) 202.27 1,522.57 1,724.84Harmonization-stricterExporter 0 4,238.01 4,238.01 8,890.4 3 3 1
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Importer 4,234.05 418.34 4,652.39Harmonization-lenient-reverts to autarkyExporter (now importer) 12,306.31 15,395.29 27,701.6 29,426.44 1 1 3Importer (now exporter) 202.27 1,522.57 1,724.84Harmonization-medianExporter 2,520.01 9,682.56 12,202.57 15,881.84 2 2 2Importer 2,520.01 1,159.26 3,679.27
5.6 Conclusions
There are several interesting conclusions that can be drawn from the
simulations carried out in this chapter. In the first scenario, it appears that the further
apart the standards are originally, the harder it is to harmonize. In the cases where
the standards are 10 or 15 points apart, harmonization to the lenient standard is
preferred, whereas in the case where they are 20 points apart, autarky is the best
option. Except for the situation where the optimal standards are very close together,
harmonization to the stricter standard is the worst possible option.
In the second scenario, if the difference between the standards in the two
countries is small, harmonization to the lenient standard is preferred. However as the
difference increased, as in Case 2 and 3, autarky is preferred. Again, the least
welfare enhancing option is to harmonize to the stricter standard.
In the third scenario, autarky is always the preferred option. It is clear that
the changes to the initial demand curve result in a rapid decrease in demand.
Therefore, if the standard moves away from the mean, demand will drop off quickly
and autarky is preferred.
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The results from this empirical model tend to support the hypothesis that
harmonization is not always beneficial to society. It will only be beneficial if
countries decide to harmonize to the lenient standard, and then only in certain cases.
As this is only a two-country trade model, it could be questioned how beneficial
harmonization would be in the today’s global setting? Differences between
individual country’s preferences lead us to ask what effect they may have on the
future of the world organic market. These differences may prevent harmonization
from occurring even when it could be welfare enhancing. In a world where countries
have vastly different cultural beliefs and economic incentives, it may be difficult to
harmonize to one organic standard.
This simulation results in different welfare outcomes for each participating
country. These differences are in addition to the differences in consumer preferences
that may inhibit harmonization. If one country’s national welfare will be decreased
by participating in the harmonization process, it may make negotiations difficult.
The ideal situation would be if all countries were to benefit from harmonization, but
as this simulation indicates, it is highly unlikely that this will always be the case.
Do consumers differ greatly around the world? Do their preferences for
organic standards influence their purchasing decisions? If, as it is believed,
consumer preferences do differ in different nations, then there is strong reason to
trust the results found above. Increased knowledge regarding consumer beliefs and
ideologies towards organic standards is necessary to support the conclusions of this
simulation exercise.
136
137
Chapter 6
Organic Standards and Consumers: An International Comparison
6.1 Introduction
Organic standards around the world have evolved to be different as a result
of varying cultural beliefs, economic incentives and the physical environment.
While the major principles of organic agriculture are relatively the same among
countries, there are divergences in the specific standards that are used to produce
organic products. These differences in standards are to be expected, as standards
should reflect the desires of the group who developed them, however they can
inhibit trade.
Organic standards have been created in response to the need for consumer
assurance of the credibility of organic claims. Due to the credence nature of organic
goods, consumers require third party verification to ensure the authenticity of
products identified as organic. Organic standards can be developed by private or
public certification agencies. Both producers and consumers have played a major
role in the development of national standards; therefore the standards should reflect
their preferences.
To determine whether consumer preferences are in line with current national
organic standards, a survey was conducted in three countries – Canada, the US and
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the UK. The survey asked consumers questions regarding their frequency of organic
purchases, their motivations for purchasing organic products, socio-economic
questions and questions testing their knowledge of the organic industry. In addition,
the second section of the survey asked consumers to rate different products based on
the standards they were produced under. The responses were then analyzed using
conjoint analysis. The results of this section and a discussion of conjoint analysis
will follow in Chapters 7 and 8. This chapter will provide a full description of the
survey and the non-conjoint results.
6.2 Data Collection
The survey was conducted to gather more information on organic consumers.
To test the proposition that consumers in different countries differ in their
preferences for organic standards, the survey asked consumers to rate different
standards. This information along with the other information gathered enables a
thorough examination of the typical organic consumer in Canada, the UK and the
US. In addition, the information can be used to support our proposition that
harmonization of organic standards will not be beneficial to global welfare. If
consumers in Canada, the US and the UK prove to vary significantly in their
preferences for organic standards, it could be an indication that harmonization may
be detrimental to global welfare.
6.2.1 Survey Locations
The survey was conducted in Canada, the US and the United Kingdom in
2004. In Canada, consumers were interviewed at several stores in Saskatoon and
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Vancouver. Saskatoon was chosen as a site due to the location of the researcher at
the University of Saskatchewan. Vancouver was chosen because it has several
organic stores, a population that is considered to be relatively more health conscious
and is a target market for the Canadian organic industry. The populations in these
two cities provide a broad representation of Canadians.
In Saskatoon, surveys were conducted at three sites: the Steep Hill Food
Coop, Safeway and the Saskatoon Farmers’ Market. Steep Hill Food Coop is the
only organic store in Saskatoon. It is a cooperative, although non-members can also
shop there. It was important to the study that people who purchased organic products
be interviewed, hence the motivation for surveying at Steep Hill. In order to get a
representative sample from Saskatoon, surveys were also conducted at a Safeway
store. Here it was assumed that the majority of consumers would be non or minimal
organic purchasers, but may still have some preferences for organic standards
developed in Canada. The Saskatoon Farmers’ Market was the final site in
Saskatoon. Both organic and conventionally-produced products are sold at this
market, therefore it was expected that both non-organic purchasers and organic
purchasers would be present.
In Vancouver, surveys were conducted at Caper’s Community Market and
Choices Market. Both of these stores are in the west end of Vancouver and both
carry a large selection of organic products. Attempts were made to conduct surveys
at less specialized stores in different areas of town; however, these stores were
uncooperative.
140
Seattle was chosen as the survey location in the US due to its proximity to
Vancouver. In addition, Seattle is considered to be similar to Vancouver in that its
population is health conscious and it has a relatively large organic market. In Seattle,
surveys were completed at Larry’s Market in Queen Anne, and at the Puget
Consumers Coop (PCC) in Issaquah. Larry’s Market is a supermarket that carries
some organic goods. PCC is an organic supermarket.
It was desirable to survey consumers in the European Union (EU) to
determine if there are significant differences between consumers in the EU and
North America, the two major organic consuming continents. A contact was able to
set up survey locations in the town of Aberystwyth. Aberystwyth is a university
town located approximately half way up the west coast of Wales. The town contains
organic stores and the region has organic producers.
Surveys were conducted at two sites in Aberystwyth. Treehouse is an organic
food store located in the downtown core. The remainder of the surveying was done
at a Safeway market on the outskirts of town where a broad base of consumers could
be reached.
6.2.2 Respondent Recruitment
At all the locations customers were approached and asked if they wished to
participate in the survey. Participants were given a letter of introduction that
described the survey and provided contact information for researchers involved in
the project should they wish to receive more information or to withdraw from the
study (see Appendix A). The survey was explained verbally and then, in many cases,
141
the consumer completed it independently. In some cases, the interviewer completed
the survey with the consumer.
There was no formula for determining who would participate in the survey.
Every customer entering the store was asked to complete a survey; some chose to
participate while others did not. In this way, it was hoped that a representative
sample could be gathered. Participants had to be over the age of 18 and only one
survey per household was allowed.
6.3 Survey Description
This section of the chapter will describe the survey in detail. Explanations
will be provided on the motivations for including the different questions in the
survey. A copy of the surveys can be found in Appendix A.
The first section of the survey asked respondents to indicate the frequency of
their organic purchases. The choices were never, seldom, occasionally, frequently
and whenever possible. “Always” was not included as an option as in many cases
certain products are not available in an organic form. From these responses the
sample could be segmented by the frequency of their organic purchases.
If the participant responded that they had purchased organic products at some
point, they were then asked to state their motivations for buying organic. There were
five options available: conveniently packaged, health concerns, environmental
concerns, taste and “other”. This information can be used to determine the major
motivating factors that drive people to purchase organic food. Those participants
who had never purchased organic food were asked to indicate their reasons for not
purchasing from the following choices: price, availability, appearance and “other”.
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In order to increase purchases of organic products, producers and marketers need to
overcome these inhibiting factors.
The second section of the survey presented respondents with a stated
preference conjoint task. This analysis will be discussed in more detail in Chapter 7.
The conjoint exercise asked respondents to rate a particular organic good based on
the standards under which it was produced. The responses can be broken down to
reveal utility values for each standard. This information is used to determine whether
populations in different countries are statistically different in terms of their
preferences for organic standards.
In the final section of the survey, respondents were asked to provide socio-
economic information; they were also asked several questions to test their
knowledge of organic standards. Consumers were asked to indicate whether their
home country had a national organic standard. If they responded positively then they
were asked if they could identify the standard from the profiles provided in the
conjoint section of the survey. The responses demonstrate consumer knowledge
about organics in their domestic market. Following this, consumers were asked to
choose between three organic products, one produced in Canada, one produced in
the EU and one produced in the US. They were also asked to explain their choice.
The responses reveal whether consumers had a natural preference for domestic
organics.
Socio-economic information on gender, age, household income levels and
educational attainment was gathered. This information is used to segment the sample
of consumers. It is also useful to know who is purchasing organic food and who
143
could be targeted via marketing. Information on age was not collected in Saskatoon;
these questions were added later for the remainder of the surveys.
The last part of the survey presented respondents with a series of statements.
The participants were asked to state whether they agreed with, disagreed with, or did
not know about the statement. The statements targeted the bundling aspects of
organic food and tested consumer knowledge about organic certification and
accreditation.
6.4 Results: Identifying Organic Consumers
Examinations of the age of consumers, their incomes, their education levels,
the frequency of their organic purchases and their gender will help to determine who
is purchasing organic products. The information gathered in regards to consumer
knowledge about the organic industry is used to determine what can be done to
further educate consumers on the production of organic food. A detailed analysis of
the data gathered from each country is presented below. This is followed by a
comparison of the results from the three countries and a discussion of the
implications for the organic industry. A summary of all the results not presented in
this chapter can be found in Appendix B.
6.4.1 Canada
A total of 176 surveys were collected in Saskatoon and Vancouver. Table 6.1
presents the demographic information for the participants compared with national
demographics information.
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Table 6.1 - Comparison of Survey and Canadian Populations
Age Stats. Canada
2003
Organic Study % buying organics frequently or
whenever possible in study
20-29 18.2% 8.5% 9.5%30-39 19.8% 22.3% 18.9%40-49 22.1% 29.8% 28.4%50-59 16.9% 33% 36.5%60 & over 23% 6.4% 6.8%Gender Stats.
Canada 2003
Organic Study % buying organics frequently or
whenever possibleMale 49% 32.9% 35.2%Female 51% 67.1% 64.8%Highest level of Schooling
Stats. Canada
2003
Organic Study % buying organics frequently or
whenever possible in study
Less than high school 34.6% 4% 2.7%High school diploma 24% 16.7% 13.6%College diploma 15.6% 20.1% 20%Technical school 11.3% 5.7% 4.5%Bachelor’s degree 10.5% 31% 35.5%Master’s degree 2.8% 14.4% 14.5%Doctorate or professional degree
1.1% 8% 9.1%
Average Family Income in 1995 dollars
Stats. Canada 1996 Organic Study$54,583 $69,281.01
Source: Adapted from Statistics Canada Internet Site (2004) and survey data
Sixty-nine percent of respondents were over the age of 40, while only 8.5%
were under 30. Female shoppers had a higher participation rate in the survey than
males. This is not surprising due to the location of the surveying, i.e. supermarkets;
the division of household labour, while changing, dictates that grocery shopping is
still predominantly a female role within the family. In addition, the time of
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surveying may have also played a role in determining the population sample
obtained. The surveys were conducted mainly in the morning and the afternoon, and
women with small children tend to stay at home more often than men.
Income levels among participants are higher than the national average. This
value may be influenced by the location of the retail outlets where surveying was
conducted. The west end of Vancouver is a particularly affluent area of Canada. In
addition, higher incomes would be expected as one would assume that those with
higher incomes might be more willing and able to purchase organic food which is
normally priced at a premium.
Educational attainment was also higher amongst participants in the survey
than the national averages. The majority of the participants (53.4%) had achieved a
bachelor’s degree or higher, while only 14.4% of the Canadian population had
obtained the same level of education. This follows from the assessment of income
levels, those people with higher education would expect to earn higher incomes and
vice versa. It may also be a result of the location of the survey as Saskatoon is
predominantly a university town.
The first question of the survey asked participants to state the frequency with
which they purchased organic products. Figure 6.1 illustrates their responses. Of
those consumers interviewed, 37.5 % stated that they purchased organic products
whenever possible. This relatively high percentage is to be expected given the focus
of the survey and the concentration on organic stores. It should not be interpreted as
representative of the general Canadian population.
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Figure 6.1 Frequency of organic purchases by Canadian consumers (n=176)
Canadians appear to be motivated by several factors when deciding whether
to buy organic goods. The predominant determinants are health concerns; which are
followed by environmental concerns and taste. Figure 6.2 illustrates the motivations
driving consumers to purchase organic products. As well as these traditional reasons,
sustainable food production, support for local farmers, ethical reasons, respect for
the earth, the belief that organic food has greater nutritional value, the non-GMO
property of organics and a desire to promote the industry were all cited as deciding
factors. Price, availability, lack of knowledge regarding organic production and
inconvenience were all reasons given by those consumers who did not normally
purchase organic food.
0.0%5.0%
10.0%15.0%20.0%25.0%30.0%35.0%40.0%
Percentage of Consumers
WheneverPossible
FrequentlyOccasionally Seldom Never
Frequency of Organic Purchases
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0%10%20%30%40%50%60%70%80%90%
Conve
nientl
y Pack
aged
Health
Conce
rns
Enviro
nmen
tal C
oncer
ns
Taste
Other
% o
f Con
sum
ers
Figure 6.2 Organic purchase motivators for Canadians (n=176)
In terms of country of origin preferences, the majority of respondents (75%)
said that they preferred to buy Canadian products. Reasons given for this include
supporting local agriculture, less transportation of food products, which implies less
environmental damage and fresher food, and a belief in the Canadian organic
system. Some Canadian respondents (14.8%) would prefer to purchase products
from the EU as they believed that the EU had stricter standards, while only 2.8%
would choose to purchase organics from the US. This is somewhat counterintuitive
as the US is far closer in proximity than the EU and environmental damage caused
by hauling food long distances was a major concern of organic consumers.
However, there appears to be a lack of trust in the US organic system, even though
the standards in fact appear to be stricter than those of the EU as will be discussed in
Chapter 8, sections 8.2.1.4 and 8.2.2.4
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Most Canadians lacked knowledge regarding the National Standard of
Canada for Organic Agriculture. Of 174 respondents, 91 did not know whether
Canada had a national standard. Only 45 respondents responded positively, and only
1 person was able to correctly identify the national standard from the profiles
provided. Many of the respondents were unsure but believed that a national standard
existed. If a national standard is to succeed in Canada there needs to be more
consultation with, education of and communication with consumers.
In the final section of the survey, people were asked to state whether they
agreed with, disagreed with, or did not know about several statements. The
statements made claims regarding organic food and the certification of organic food.
The purpose of this section was to discover what people know about organic food
and the standards that are in place and where further clarification is needed. Refer to
the copy of the survey in Appendix A for a list of the statements.
The purpose of the first two statements – Organic food is not genetically
modified, organic food is not irradiated - is to determine whether consumers know
that organic food is non-GM and non-irradiated and to determine whether this is an
important issue. The survey results indicate that 63% of consumers are aware of the
non-GM property of organic food and 55% are also aware that organic food in
Canada is meant to be non-irradiated. The purpose of the third statement is to see
whether consumers can differentiate between locally produced food and organic
food. Seventy percent of consumers knew that organic food can come from all over
the world and that the term “local” is not analogous to “organic”. The fourth
statement evaluates knowledge of the organic livestock industry. Many consumers
149
knew about the animal welfare principles of organic livestock production, although
there is still room to improve the consumer knowledge. The responses to the fifth
question indicate that consumers are aware of the differences between foods that are
labelled “natural” versus foods that are labelled “organic”.
The final four statements make claims regarding certification and
accreditation in the organic industry. In many cases consumers were not aware of
the steps that a producer must go through to sell his/her output as “organic”.
Through discussions with the interviewees, it was clear that people are interested in
learning more about the behind the scenes certification and accreditation programs
that exist in Canada. This would ensure consumer confidence in Canadian organics
as well as provide knowledge needed to make informed decisions.
6.4.2 United States
The United States is both a major consumer and producer of organic products.
Fifty consumers were interviewed in the US. From the information gathered, a
comparison can be conducted of the “typical” organic consumer in the United States
versus the average organic consumer in Canada and the UK. Table 6.2 presents the
demographic information for the US participants and, where available, national
demographics information.
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Table 6.2 - Comparison of survey and US populations
Age US Census 2000
Organic Study % buying organics
frequently or whenever
possible in study20-29 13.6% 17.6% 20%30-39 15.4% 17.6% 17.1%40-49 15.1% 21.6% 20%50-59 11.0% 27.5% 28.6%60 & over 16.2% 15.7% 14.3%
Gender US Census 2002
Organic Study % buying organics
frequently or whenever possible
Male 48.9% 41.2% 48.6%Female 51.1% 58.8% 51.4%Highest level of schooling
US Census 2002
Organic Study % buying organics
frequently or whenever possible
Less than grade 9 7.1% 0% 0%Grades 9-12 14% 0% 0%High school diploma 30.1% 3.9% 2.8%Some college, no degree
18.2% 25.5% 28.6%
Associate degree 7.3% 7.8% 5.7%Bachelor’s degree 15.5% 33.3% 34.3%Doctorate or professional degree
7.5% 29.4% 28.6%
Average Family Income in 2001 dollars
US Census 2002 Organic Study$57,852 $76, 549.53
Source: Adapted from US Census Internet Site (2004) and survey data
151
U.S. participants were more evenly distributed across age groups than the
Canadian sample population. The largest group of participants were those between
the ages of 50 and 59. The ratio of female to male consumers was closer to the
national average than that in Canada; however, female consumers still had a higher
participation rate in the survey than males.
Income levels among participants were much higher than the national
average. This value may be influenced by the location of the retail outlets where
surveying was conducted. In addition, higher incomes would be expected as one
would assume that those with higher incomes may be more willing and able to
purchase organic food which is normally priced at a premium. The people who
purchased organics tended to be more interested in participating in the survey.
Educational attainment was also higher amongst participants in the US
survey than the national averages. Sixty-three percent of the participants had
achieved a bachelor’s degree or higher, while only 23% of the American population
had obtained the same level of education. This may follow from the assessment of
income levels, where those people with higher education would be expected to earn
higher incomes. It may also be a result of the urban location of the stores in which
the surveys were conducted.
Figure 6.3 illustrates the frequency of organic purchases by participants. Of
those consumers interviewed, 41.2 % stated that they purchased organic products
whenever possible. Due to the small sample size and the deliberate focus of the
survey on organic stores this value is most likely not an accurate reflection of the
purchasing patterns by American consumers.
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0%5%
10%15%20%25%30%35%40%45%
Percentage of Consumers
WheneverPossible
Frequently Occasionally Seldom Never
Frequency
Figure 6.3 Frequency of organic purchases by US consumers (n=50)
Similar to Canadians, American respondents purchase organic products
because of health concerns. Health concerns are followed by environmental
concerns and taste. Figure 6.4 illustrates the motivations driving US consumers to
purchase organic products. In addition to these traditional reasons, support for local
agriculture, social health, a desire to escape corporate agriculture, a preference for
bulk foods, concerns for farm worker safety and quality were all cited as motivating
factors. Conner and Christy (2004) also found similar motivating factors in their
study of consumer preferences for organic food in the US. In this study, price,
availability and appearance were reasons given by those consumers who never
purchased organic food.
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0%10%20%30%40%50%60%70%80%90%
% o
f Con
sum
ers
Figure 6.4 Organic purchase motivators for US consumers (n=50)
In terms of country of origin preferences, a slight majority of respondents
(51%) state that they would prefer to buy US products. Reasons for this included a
desire to support local agriculture, less transportation of food products, which equals
less environmental damage, fresher food and an unfamiliarity with standards in the
other countries. Surprisingly, 27.5% of respondents would prefer to purchase
products from the EU as it was believed that they had stricter standards, while only
7.8% would choose to purchase organics from Canada. Many Americans knew
about the food safety scares in the EU and therefore believed standards in the EU
would be stricter.
The majority of people interviewed were aware of the existence of the
National Organic Program. Of 51 respondents, 16 did not know whether the US had
a national standard or not, whereas 29 respondents responded positively. Only four
people were able to correctly identify the national standard from the profiles
provided. US respondents may be more knowledgeable about organic standards than
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their Canadian counterparts because the National Organic Program is a mandatory
program and caused a lot of debate in the organic industry.
Respondents in the US were very aware of the non-GM property of organic
food. Seventy-four percent knew that the definition of organic products prohibits
GMOs. They were also aware that organics are not irradiated and can be produced
all over the world. There is a need for further clarification of the definition of
organic livestock production. Most consumers were unaware that livestock is to be
raised in an animal welfare friendly manner as part of the organic principle. The
term “natural” has been used by some marketers who wish to cash in on the health
conscious consumer. The respondents (90%) appear to be aware that the term natural
is not analogous to organic and that there are differences between the production
practices.
Consumers were unclear on the certification processes in the US. Many were
unaware that an independent third party has to monitor an organic farm to ensure
producers are complying with regulations. In addition, very few people were aware
that certification agencies must be accredited by the government in order to use the
USDA organic label. Without this knowledge, many consumers may question the
validity of the organic claims. Conner and Christy (2004), in their study on
consumer preferences for organics, conclude that there needs to be additional
communication between the industry and consumers to ensure that this important
information is understood.
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6.4.3 United Kingdom
One hundred consumers completed surveys in the UK. The European Union
is not only the birthplace of organic farming but it also has the largest organic
market (Browne et al. 2000). The European Union imports organics from over 90
countries and it has been the driving force for the establishment of national organic
standards in organic producing countries (Lohr and Krissoff 2002). It was very
important to gather sample data from an EU country in order to compare the
preferences of its population with those of North Americans. Table 6.3 describes the
survey population and compares it with the demographics from the UK.
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Table 6.3 - Comparison of survey and UK populations
Age UK Census 2002
Organic Study % of frequent and whenever
possible buyers in study
Under 20 (min. 18) 2.44% 3% 0%20-29 13.11% 29% 28.1%30-39 No data 15% 15.8%40-49 No data 14 17.5%50-59 No data 27% 28.1%60 & over 20.54% 12% 10.5%Gender UK Census
2002Organic Study % of frequent or
whenever possible buyers
in studyMale 49% 44% 29.8%Female 51% 56% 70.2%Highest level of schooling
UK Census 2001
Organic Study % of frequent or whenever
possible buyers in study
School-left before 16 15.0% 7% 3.5%School-age 16 21.7% 6% 3.5%School- age 18 24.1% 12% 10.5%College 13.7% 21% 38.6%Bachelor’s degree 31% 15.8%Master’s degree 16.3% 17% 19.3%Graduate/professional degree
(total all 3 categories)
6% 8.8%
Average Family Income in 2004 poundsOrganic Study
£22,841.46
Source: Adapted from UK Statistics Internet Site (2004) and survey data
The largest group of participants were between the ages of 20 and 29 (29%),
with the 50 to 59 age group coming in a close second (27%). Aberystwyth is a
university town which may explain why a large number of respondents were in their
20s. The ratio of female to male consumers was closer to the national average than
157
in Canada; however female consumers still had a higher participation rate in the
survey than males.
Income is not reported in UK censuses and therefore no information could be
reported on national average household income levels.
Participants in the survey appear to be well educated, with 54% of the
participants having achieved a bachelor’s degree or higher as compared with the
national average of 16.3% of the population having any sort of degree. This high
proportion may be due to the fact that Aberystwyth is a university town.
Figure 6.5 illustrates the frequency of organic purchases by study
participants. Of those consumers interviewed, 30.4% stated that they purchased
organic products frequently.
0%
5%
10%
15%
20%
25%
30%
35%
Percentage of Consumers
WheneverPossible
Frequently Occasionally Seldom Never
Figure 6.5 Frequency of organic purchases by UK consumers (n=100)
Similar to Canadians, the UK respondents purchase organic products
primarily for health reasons followed closely by taste and environmental concerns,
respectively. Figure 6.6 illustrates the motivations prompting UK consumers to
158
purchase organic products. As well as these traditional reasons, support for local
sustainable agriculture, ethical farming practices, political factors, concerns for the
health of their children, the availability of conventional products and quality were all
cited as motivating factors. Price, availability, opportunity for false claims, lack of
difference between organic and non-organic food and appearance were all reasons
given by those consumers who never purchased organic food.
0%10%20%30%40%50%60%70%80%
Con
veni
ently
Pack
aged
Hea
lthC
once
rns
Env
iron
men
tal
Con
cern
s
Tas
te
Oth
erMotivations
% o
f Con
sum
ers
Figure 6.6 Organic purchase motivations in the UK (n=100)
In terms of country of origin preferences, the majority of respondents (93%)
in the UK would prefer to buy British products. Reasons given for this include a
desire to support local agriculture, less transportation of food products, no antibiotic
use, safer products, products that are GM free and a belief that standards are higher
in the UK. Six people had no preference for country of origin. Many consumers
stated that they would never buy products from the US, which is also reflected in
statements made by Canadian consumers.
159
The majority of people interviewed were aware of the existence of UKROFS
(United Kingdom Register of Organic Food Standards). Of 99 respondents, 12 did
not know if the UK had a national standard or not, whereas 58 respondents
responded positively. No one was able to correctly identify the national standard
from the profiles provided.
UK consumers were very aware of the non-GM characteristic of organic
food. Seventy-six percent knew that organic food was meant to be GM free. They
were also aware that organic goods are not irradiated and can be produced all over
the world. Most consumers were also aware that organic livestock production was
meant to be animal welfare friendly. Ninety percent of UK consumers know that
organic and natural are not equivalent terms and cannot be used interchangeably.
Fifty-eight percent of consumers knew that organic farmers are required to
be certified by an independent third party, however, there is confusion regarding
accreditation processes in the UK. Many respondents were unaware that certifiers
also need to be accredited by a government or private accreditor. Clarification of
these practices may make European consumers more open to imports..
6.4.4 Discussion
Consumers in all three countries are mainly motivated to purchase organic
products for health and environmental reasons and because they feel the products are
better tasting. There are very few obvious differences in terms of socio-economic
information and these categories should be interpreted with caution as the
information gathered could be biased due to the survey locations.
160
Both Canadian and EU consumers appear to have a dislike for US products.
Neither group of consumers trusts the role of the US government in organic
certification and accreditation. Consumers in both countries would prefer to buy
products from one another rather than from the US.
US and EU consumers tended to have greater knowledge about organic
standards and certification procedures then their Canadian counterparts. Consumers
in the US were the most knowledgeable, with those in the EU following close
behind. Consumers in the EU were much more knowledgeable about the animal
welfare principles within organic livestock production than those consumers
interviewed in North America. However, EU consumers tended to be more skeptical
about organic farming and organic claims.
6.5 Conclusion
This chapter provided an overview of the organic survey conducted in this
thesis. The survey was conducted at a variety of locations so the hypothesis that
consumer preferences for organic standards differ across borders could be tested. In
addition, the information gathered will be used to segment the respondents
according to their purchase patterns, and their socio-economic information.
Questions regarding organic production in their domestic country help determine the
knowledge level of organic consumers regarding organic production and
certification.
The results show that the typical organic consumer in North America is not
much different than the average organic consumer in the EU. EU consumers seem to
have a better understanding of organic principles and procedures than North
161
Americans. This analysis of the survey populations leads into a more detailed
analysis of consumers’ preferences for specific organic standards. Conclusions from
this analysis is used to analyse the proposition that consumers differ across nations
in terms of their preferences for organic standards and that these differences will
make harmonization of organic standards detrimental to global welfare.
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Chapter 7
Developing the Conjoint Model
7.1 Introduction
Conjoint analysis is an empirical method that allows researchers to model
consumer trade-offs between multi-attribute products (Ness and Gerhardy 1994). It
is based on the idea that a good or service can be described by the attributes that it is
composed of and that consumers make purchasing decisions based on these
attributes (Steenkamp 1987). In a conjoint study, consumers are presented with
descriptive product profiles consisting of different combinations of product
attributes and are asked to rate or rank the profiles. This data can then be analyzed to
determine the relative importance of each attribute in consumers’ preference
rankings of the full profiles. Using the calculated “part-worth” utility levels, a
market analyst can determine the underlying consumer preferences for individual
attributes within a product.
A survey was designed to gather information on consumer preferences for
various organic standards. This information is used to determine whether there are
significant differences between the preferences of consumers in the US, Canada and
the UK by conducting a conjoint analysis. Respondents were asked to rate organic
products based on the standards under which they were produced. When analyzed,
163
these scores provide importance measures for individual standards. A comparison of
these measures will be done to discover whether consumers in different countries have
statistically different preferences for specific organic standards. It has been assumed that
consumers differ in their preferences for organic standards and that these differences
may inhibit the harmonization process. Conjoint analysis was chosen as the survey
method due to its ability to break down national standards into their individual
specifications.
This chapter provides a brief description of conjoint analysis and its use in this
research. It begins with a discussion of consumer behaviour theory, and then proceeds
into an examination of conjoint measurement and its validity and reliability. Previous
uses of conjoint analysis will be discussed to illustrate its applicability to this research
problem and to provide a context for the theoretical information. Finally, a thorough
explanation of how conjoint analysis is modeled and used in this study will conclude the
chapter.
7.2 Analyzing Consumer Behaviour
The Lancasterian approach to consumer choice in economics is based on the
premise that consumers maximize utility by combining utilities derived from the
properties or characteristics of goods, not from the goods themselves (Lancaster 1991;
Sanderson 2001). When making a purchasing decision, a consumer will implicitly
evaluate a good in its entirety, consider all the attributes that it is composed of, and
compare it with possible substitutes. They will then choose to purchase a product
because of the characteristics it possesses and the services it can provide (Baker and
164
Burnham 2001). Lancaster (1991, p.4) claims, “The relationship between goods and the
characteristics they contain is objective and determined by the consumption
technology16”. Therefore, while different consumers may choose different goods based
on their preferences for the characteristics of that good, they are still faced with a
common consumption technology (Lancaster 1991).
In the model used in this thesis, consumer behaviour is measured using the
conjoint method. More specifically, consumer preferences for varying organic standards
will be analyzed through the use of conjoint analysis. In Hair et al. (1992, p.379), the
use of experimental design in the analysis of consumer decisions is said to have two
objectives:
1. To determine the contributions of predictor variables and their respective values to the determination of consumer preferences
2. To establish a valid method of consumer judgments that is useful in predicting the consumer acceptance of any combination of attributes, even those not originally evaluated by consumers
From the data gathered in a conjoint study, inferences can be made regarding
consumer attitudes towards products that were not included in the analysis (but that are
comprised of the same attributes). Lancaster (1991, p.5) suggests that the “demand for
goods would be derived from the demand for the properties they possess”. This implies
that predictions can be made about the potential of hypothetical products by evaluating
consumer preferences for specific attributes that make up that good or service. It is this
consumer choice model that sets the stage for the development of conjoint measurement.
Its principles provide the theoretical foundation on which conjoint analysis is based.
16 “Consumption technology defines the relationship between the preferred characteristics and the good” (Sanderson 2001, p. 39).
165
7.3 Conjoint Measurement
Demand studies based on the Lancastrian approach provide an ideal background
for conjoint analysis methodology as both are based on the premise that consumers
value products because of the combination of the characteristics or attributes that
comprise the products (Baker and Burnham 2001). Developed by Luce and Tukey in
1964 for mathematical psychology, conjoint analysis has since been widely used in
consumer marketing analyses (Anderson and Bettencourt 1993). Since the 1970s, it has
been used as a method to empirically validate how consumers make purchasing
decisions by trading off between attributes (Hair et al. 1992).
The conjoint model is based on the premise that the total utility a consumer
derives from a product can be measured by the utilities or “part-worths” of each factor
level (Ness and Gerhardy 1994). A product is made up of several factors (attributes),
and each factor may have two or more factor (attribute) levels. For example, price is
often included as a factor; its factor levels would consist of all the possible price
combinations the experimenter wishes to evaluate. Once the data has been analyzed and
the part-worths are calculated, the relative importance of the factors can be determined.
The conjoint model uses a decompositional approach, which implies that by knowing a
respondent’s overall preference for a good and knowing the good’s attributes,
preference can then be broken down to determine how much of that preference is due to
each attribute and how the value of each attribute (Hair et al. 1992). The results are
calculated at an individual level but can be aggregated to determine the preferences of a
segmented group (Hair et al. 1992).
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7.4 Empirical Applications
Since its inception, conjoint analysis has been used in marketing research and for
industrial applications (Patterson et al. 2003). Two major advantages of conjoint
analysis are that it can be used to obtain information on products that are not currently in
the market and it also allows for the analysis of heterogeneous goods (Anderson and
Bettencourt 1993). In their discussion of conjoint analysis, Hair et al.(1992) identify the
three major uses of conjoint models as segmentation, profitability analysis and market
share simulation.
There are many examples of conjoint analysis use in the economic literature.
Baker and Burnham (2001) use conjoint analysis in their paper examining consumer
response to genetically modified foods. Using a main-effects ANOVA model and
cluster analysis, they are able to divide respondents into three segments – price pickers,
safety seekers and brand buyers. They conclude that future marketing efforts should
highlight specific beneficial attributes of individual genetically modified (GM) foods
rather than focusing on the benefits and safety of biotechnology and GM products.
As in the paper by Baker and Burnahm (2001), the majority of applications of
conjoint analysis tend to concentrate on the analysis of consumer preferences for
different products (Ness and Gerhardy 1994). Ness and Gerhardy (1994) use conjoint
analysis to test consumer preferences for quality and freshness attributes of eggs.
Hussain et al. (2003) use it to evaluate the importance of certain characteristics of deer
hunting licenses in Alabama and to determine the preferred combinations of these
characteristics. Anderson and Bettencourt (1993) model preferences for fresh and frozen
salmon among buyers using a conjoint model estimated through OLS, as well as a
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hybrid conjoint model and a maximum likelihood hybrid two-limit Tobit model. They
evaluate the performance and predictive validity of the three types of conjoint models.
They find no significant differences between the models although hybridization did
improve the overall fit (Anderson and Bettencourt 1993). Sanderson (2001) uses
conjoint analysis to determine consumer priorities for bison meat characteristics in order
to predict the potential demand for bison meat products.
7.5 The Conjoint Experiment
In this study, consumer preferences for different organic standards are evaluated
using a conjoint experiment. Conjoint analysis allows consumers to rate a product based
on the standards (attributes) it was produced under. These ratings can then be used to
compare preferences across market segments. The purpose of using conjoint analysis is
to determine whether consumer preferences for organic standards differ significantly
across countries. Differences in preferences support the proposition that harmonizing
organic standards internationally causes a decrease in world welfare.
A conjoint experiment is normally chosen when one wishes to understand how
consumers will react to specific products or product attributes, whether it be an
experiment which introduces a new product or service, or one which is attempting to
evaluate preferences for different attributes within current products. The output from the
conjoint experiment, part-worth scores for each attribute level, can be used to describe
consumer preferences for various products. Part-worth scores are estimates from the
conjoint analysis of the overall preference or utility associated with the attributes used to
describe the product (Hair et al. 1992). This section will describe the steps involved in
168
the design and implementation of a conjoint experiment. Figure 7.1 provides a step-by-
step guide to the conjoint analysis decision process.
169
Figure 7.1 Conjoint analysis decision process
Source: Hair et al. 1992, p. 387
RESEARCH PROBLEM
What are the elements of utility for the product/service/idea considered?
What are the key decision criteria involved in the choice process?
SPECIFYING FACTORS AND LEVELS
Attributes to be usedLevels for each factor
SPECIFYING THE BASIC MODEL FORM
Additive versus interactiveLinear, quadratic or separate part-worths
CREATING STIMULIFactorial design
Fractional factorial design
CHOOSING A PRESENTATION METHOD
Full profile versus trade-off
SELECTING A PREFERENCE MEASURE
Metric (ratings) versus non-metric (rank order)
SELECTING THE ESTIMATION TECHNNOLOGY
EVALUATING THE RESULTSAssessing reliability
Assessing predictive accuracy
INTERPRETING RESULTSAggregate versus disaggregate results
Relative importance of attributes
APPLYING THE CONJOINT RESULTSDefining segments
Profitability analysisChoice simulator
170
7.5.1 Attribute Selection
In each conjoint experiment, the attributes or factors and the attribute or factor
levels of a product or service must be specified a priori (Fenwick 1978). The analyst
must choose factors that best differentiate between the products offered. All factors that
detract from, or add to, the overall value of a good should be included (Hair et al. 1992).
Once the factors have been chosen, the factor levels must be selected. The factors levels
should be set slightly outside of the existing values to avoid interattribute correlation17
(Hair et al. 1992). For example, if price is a factor, then the price levels should be
slightly higher and lower than the actual prices, however the values should remain
believable to maintain realism within the study. Multicollinearity between the factors
must also be avoided (Hair et al. 1992). Multicollinearity may be present if two factors
are combined unrealistically within a product. Hair et al. (1992) suggest that it is also
important to keep the number of attribute levels equal across attributes, as an attribute
with a higher number of levels may signal greater importance to the respondent.
In this organic study, two products are examined: organic bagged salad and
organic ground beef. These products were chosen as they were available in all the
investigated markets and it was thought consumers would have some familiarity with
them. For each product there were four attributes studied. In the salad survey, the four
attributes were: buffer zones to prevent substance drift onto organic fields, use of
tobacco sprays, package labelling and price. In the beef survey, the four attributes were:
source of cattle, use of fish feeds, use of antibiotics and price. These specific attributes
were chosen for several reasons. First, the standards for the attributes differed across the
US, Canada and the EU. These differences are needed in order to determine whether
17 A combination of attributes that is unrealistic or redundant (Hair et al. 1992).
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national standards reflect consumer preferences accurately. Second, it was felt that
consumers may have some understanding of these specific standards, whereas more
scientifically worded standards may have left respondents confused and unsure of how
to respond.
Price was also included as a factor. There has been some debate over the
inclusion of price as an attribute because while price adds realism to the study, it may
also be used as indicator of quality, leading to increased importance placed on the price
level of a product or service (Ness and Gerhardy 1994). However, in this instance, price
was determined to be an important part of the decision-making process. It also assisted
in demonstrating the strength of people’s preferences; if price was not important relative
to the other attributes, it could be assumed that the consumer has strong beliefs
regarding the production of organic food.
Contrary to the suggestion by Hair et al. (1992), the attribute levels were not
kept constant in this study. This was due to the desire to include a conventional price, an
organic price and a certified organic price for the products (if these prices were available
and different). However, as the attributes levels only vary by one (three attributes with
two levels and one attribute with three levels), it was felt that it would not significantly
alter the results. In addition, there are several examples in the conjoint analysis literature
where the attribute levels were not held constant (see Hobbs 1996, Hussain et al. 2003
or Steenkamp 1987) without any significant effect. The factors and factor levels are
presented in Table 7.1.
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Table 7.1- Organic standard attributes and levels
Product Attribute LevelsBagged Organic Salad Buffer zones to prevent
substance drifti) sufficient in size to prevent contaminationii) no requirements
Use of tobacco sprays as insect controls
i) allowedii) prohibited
Labelling i) word “organic” allowed in the ingredient list of products containing less than 70% organic ingredientsii) word “organic” allowed in the ingredient list of products containing between 70-95% organic ingredients
Prices i) lowii) medium iii) high
Organic Ground Beef Sources of cattle for organic meat
i) no non-organic cattle (must be raised organically from the last three months of pregnancy)ii) up to 40% of cattle can come from non-organically raised parents
Use of fish-based feeds i) fish and their products are permitted as animal feedsii) fish are not considered organic and are prohibited as animal feeds
Antibiotics i) prohibitedii) allowed when natural or homeopathic treatments do not work
Price i) lowii) mediumiii) high
Source: Author
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Buffer zones are spaces between organic and non-organic fields that are meant to
prevent the contamination of organic crops. In an examination of different national
standards, it was found that some standards had buffer zone requirements in place to
protect organic crops from drift, be it genetic or chemical. In other cases, there was no
requirement listed in the national organic standards. These two choices were the obvious
factor levels for this attribute. If survey participants were unclear on the meaning of the
term buffer zone, it was verbally explained as defined above.
In each set of organic standards, there are lists of allowable substances for
organic producers (called an permitted substance list). These substance lists cover
everything from fertility and soil amendments to non-organic additives for organic food
products (National Standard of Canada 1999). As much of the interest in organic food
may be due to the negative publicity surrounding chemical pesticides, a factor that
examines pesticide application was considered important for the study. The majority of
allowable pesticides have lengthy scientific names and were felt to be inappropriate for
survey participants. Instead, the application of tobacco sprays, a natural insecticide that
leaves no residue in the soil but is highly toxic, was included as an attribute. Many
respondents had some familiarity with the use of nicotine as a pesticide. Some had even
used it in their own gardens. Others who wished to know more about the spray were
informed of the details listed above. The choices given to survey participants for
tobacco sprays were “allowed” or “prohibited”.
Labelling standards vary widely across countries. In the US and Canadian
standards, the word “organic” can appear in the ingredient list of a product that contains
less than 70% organic ingredients. In the EU, there must be a minimum of 70% organic
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ingredients in a product for the word “organic” to appear anywhere on the package.
These two options were included as factor levels under the labelling factor. Labelling is
often a controversial topic and, hence, was expected to be an important attribute in an
organic product.
As previously mentioned, price was felt to be an important factor in the decision-
making process. Due to the fact that the survey was conducted in three countries, each
with a separate currency and measurement system, for the purposes of analysis prices
were entered into the conjoint experiment as low, medium and high. Consumers were
faced with three possibilities for price: slightly below the price level, an average price
and slightly above the price level.
In the beef survey, there were three factors chosen besides price: source of cattle,
use of antibiotics and use of fish feeds. The EU allows producers to source up to 40% of
their calves from non-organic sources, while both Canada and the US maintain that
calves must be raised organically from the last three months of gestation. These
differences were used as factor levels.
Recently, consumer concerns regarding the use of antibiotics in livestock
production have increased. Hence, having a factor that described the potential use of
antibiotics in organic livestock production was considered important for the study. Some
organic standards prohibit the use of antibiotics entirely. If an animal is sick, it can be
treated with antibiotics but it must then be removed from the herd and cannot be
marketed as organic. Other standards allow the use of antibiotic treatment. If
homeopathic and natural treatments do not work, the cow can be treated up to three
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times per year with antibiotics without losing its organic status. These two options were
chosen as factor levels.
The final attribute pertains to the use of fish feeds in the diet of organic cattle.
Fish feeds are allowed in some standards but are prohibited in others. With the recent
BSE scares, consumers are more concerned about farmers feeding livestock products
that the animals would not naturally consume; therefore consumers may have
preferences regarding the use of fish in livestock feed. Participants in the survey were
asked to rate products that either allowed the use of fish feeds or prohibited them.
7.5.2 Conjoint Composition
The composition of the conjoint model and the relationship between attribute
levels must be specified prior to estimation of the model (Ness and Gerhardy 1994).
Ness and Gerhardy (1994) state that the composition of the model defines how attribute
levels are combined to obtain an overall preference value for the various products. The
model can either be interactive or additive. The simplest and most frequently used case
is the additive model, which assumes that respondents implicitly add the part-worths of
the factor level combinations to achieve an overall evaluation of the product (Ness and
Gerhardy 1994). The interactive model also assumes that individuals implicitly add up
the part-worths to get an overall value of the good, however the combinations of
attribute levels can be more or less than their sum (Hobbs 1996). This might occur if an
attribute is rated poorly unless it is combined with another attribute, hence having an
interactive effect. For example, a consumer may value an organic good that was
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produced locally and had a slightly lower organic standard greater than a good that was
produced with a higher organic standard but was transported great distances.
Within a conjoint model there are three possible part-worth relationships: linear,
quadratic and part-worth (Ness and Gerhardy 1994). In the linear model, increasing or
decreasing the attribute level will cause utility to change proportionally (Ness and
Gerhardy 1994). This model is the most restrictive of the three (Hair et al. 1992). The
quadratic model assumes that “utility is related to the squared distance of an attribute
from a subject’s ideal point” (Ness and Gerhardy 1994). The part-worth model is the
least restrictive of the three, as no specific relationship is imposed on the attribute levels.
(Hobbs 1996).
The factors used in the survey were assumed to have negligible interactive
effects; therefore the additive model was used. As previously mentioned, the additive
model is often preferred, as the interactive model can result in low predictive power
(Hair et al. 1992). The additive model also requires fewer responses from the
interviewees and is easier to estimate (Ness and Gerhardy 1994). The part-worth
relationship was assumed for the attribute levels, as the model does not make any a
priori assumptions regarding the relationship between the attribute levels and the
utilities (Ness and Gerhardy 1994).
7.5.3 Conjoint Design
In any conjoint experiment, the analyst must decide on the appropriate number
of factors (attributes) and factor (attribute) levels. In some instances, there is a need to
include a large number of factors to ensure the validity of the study. For example, when
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testing a particular good or service, one must include all attributes/factors that create a
realistic depiction of the good or service. When a large number of factors and factor
levels are needed, the analyst must decide on the appropriate design format for the
conjoint experiment. There are two options available to the experimenter. She must
choose between a factorial design and a fractional-factorial design. In a factorial design,
the respondent is asked to evaluate all the possible combinations of attribute levels.
While this design may be the most accurate, it is a difficult task to perform if there are a
large number of attribute levels to evaluate.
In cases where there are a large number of factors or factor levels, it is
preferable to utilize a fractional-factorial design. Many computer programs today will
allow you to create an orthogonal factorial experiment. An orthogonal array is a subset
of all possible profiles (or combinations of attribute levels). The array combines each
level of one factor with each level of another factor with equal or proportional
frequencies (SPSS Inc. 1997). In a fractional-factorial design, the analyst trades off the
measurement of all possible interactive effects in order to have a smaller number of
profiles (Green 1974). The decision to use a fractional-factorial design also dictates the
use of the additive model, as it forgoes any analysis of interactive effects with the
decision to reduce the number of profiles (Sanderson 2001).
There are four factors in this conjoint experiment, three of which have two factor
levels and one that has three. This leads to a possible 24 combinations or profiles (23 x
31) for respondents to rate. In order to reduce the length of the survey, a fractional-
factorial design was used. This reduced the number of profiles to 8 with 2 hold-out
profiles. The use of hold-out profiles will be described in more detail later.
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The profiles or stimuli can be presented using one of two options – the full
profile format or the trade-off format. The full-profile format presents the individual
with all the descriptions of the products to be evaluated and then asks them to rank or
rate each concept based on their preferences (Ness and Gerhardy 1994). The trade-off
method asks individuals to compare two attributes at a time, eventually evaluating all
combinations of levels (Ness and Gerhardy 1994). The trade-off method has fallen out
of favour with researchers, as it does not reflect an actual market setting. In a real choice
setting, consumers are faced with all the attributes and their levels simultaneously, not
two at a time (Ness and Gerhardy 1994). This study uses the full-profile method. This
allows consumers to visualize all their possible choices and then rate them accordingly.
This is a more realistic depiction of an actual market as all factors are considered at the
same time (SPSS Inc. 1997).
Respondents can be asked to rank or rate the presented profiles. Rank-order
preference measures are likely to be more reliable, as some respondents find them easier
to complete, however, they are also more difficult to administer (Hair et al. 1992).
Preference ratings tend to be easier to analyze and allow conjoint analysis to be
performed by multivariate analysis (Hair et al. 1992).
Respondents in the organic study were presented with the ten profiles and then
asked to evaluate them on a preference scale of 1-10, where 1 represented the least
preferred combination of attributes and 10 the most preferred. It was thought that this
method of evaluation would reduce the length of time required to complete the survey
and be easier for respondents. For an example of the profiles presented to respondents
see Figure 7.2.
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Profile 1
Buffer Zones: Sufficient in sizeTobacco Sprays: ProhibitedLabelling: <70%Price: $3.75/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Figure 7.2 Example of profile presented to survey participants
The aim of conjoint estimation is to calculate part-worths for every attribute
level. Commonly used estimation methods in conjoint analysis include Monanova,
Linmap, dummy variable regression, logit analysis and probit analysis (Ness and
Gerhardy 1994). Part-worths are utility scores for each attribute level. They are
calculated by the conjoint algorithm from scores given by respondents. These utility
scores are analogous to regression coefficients (SPSS Inc. 1997). The conjoint model
uses utility as the dependent variable and the factors as the independent variables
(Sanderson 2001). The model can be described as follows:
where = utility of product i= constant coefficient
= model coefficients or part-worths= product attributes
Part-worth estimations were calculated for all the factor levels discussed above. Chapter
8 will provide a detailed examination of the results of the regression analysis.
Once the part-worth scores are calculated, they can be used to predict consumer
preferences for products not rated in the survey. The trade-offs between attributes can
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also be determined, which may be useful to determine what price consumers are willing
to pay to avoid certain production practices. A discussion of the calculated trade-offs in
the organic research will follow.
To ensure the validity and reliability of the conjoint experiment, an evaluation of
the results should be conducted. It is important to test the accuracy of the model and to
evaluate its ability to predict consumer preferences (Hair et al. 1992). Most computer
software packages will provide the Pearson’s R and Kendall’s tau statistics upon
completion of the conjoint analysis. Pearson’s R evaluates the model’s ability to predict
preference levels by comparing the ratings of the hold-out profiles with ratings predicted
for those profiles by the model (Hobbs 1996). Kendall’s tau measures the correlation
between the observed and estimated preferences. In both cases, a value close to 1
signifies a good fit for the model. As mentioned, two hold-out profiles were used in the
organic study. These will be used to test the validity of the conjoint results.
Results of the conjoint analysis can be interpreted either in aggregate or in
disaggregate. When the results are interpreted in disaggregate, each respondent is
modeled separately, providing more accurate estimations of individual preferences. The
disaggregate method is optimal when one wishes to analyze what any one respondent
would do in a given situation. However, in some cases it is preferable to interpret the
results in aggregate, where estimations may be made at the individual level and then
combined. In this study, an aggregate model is required to measure the differences
between populations.
Once the method of interpretation has been determined, the experimenter can
differentiate between those attributes that are important to consumers and those that are
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not. Importance scores are calculated by dividing the part-worth range of an attribute by
the sum of all range values. The attribute with the largest range will be the most
important and vice versa.
Part-worth scores can be used to segment the population (Hair et al. 1992).
Those with similar part-worth values for a particular factor level can be grouped
together. The researcher can then see the characteristics of the group and its relative size
in the marketplace. The results can provide some insight into the combinations of
attributes that will generate the maximum utility for consumers. Finally, the researcher
may wish to perform different conjoint simulations. Using the data from the analysis,
the researcher can predict the market response if a standard was changed (Hair et al.
1992).
7.6 Reliability and Validity
Fenwick (1978) describes three areas that could affect the reliability and validity
of the conjoint measurements during the design stage of the conjoint experiment. First,
the selection of attributes must be carried out carefully, as the omission of important
factors or the inclusion of unimportant factors may affect the generated results. Second,
the model must be correctly specified to ensure the validity of the estimated values.
Third, if the product is too complex, ranking may be difficult for respondents and may
result in skewed values. To bypass this problem, a rating scale (as in this study, where
respondents are asked to rate products on a preference scale from 1-10) can be used so
that respondents are not required to compare every possible product combination
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(Fenwick 1978). In this study, a fractional factorial design was used to limit the number
of profiles presented to respondents.
The use of hold-out profiles also ensures the reliability and validity of the study.
The ratings given to the hold-out profiles can be compared with the predicted ratings for
these profiles based on the ratings given for the remaining profiles. If the predictions are
accurate, we would expect to see a Kendall’s tau value close to 1.00 indicating that the
model is a good fit.
7.7 Summary
Conjoint analysis is an important tool for the market analyst. It enables the
researcher to measure consumer preferences for different product attributes. The model
is based on the premise that consumer’s view goods and services as bundles of
attributes. The purchasing decision is based on these attributes and, therefore, by asking
consumers to rate products based on the factors they are composed of, the researcher can
gather part-worth utility values for each factor level, along with an importance rating for
the factor as a whole. The data can then be used to determine consumer response to
products not presented in the experiment.
In this study, consumers were asked to rate different organic products based on
the standards they were produced under. Conjoint analysis was chosen as it allows
consumers to implicitly trade-off between attribute levels to determine their optimum
product. The results will be used to support the proposition that consumers do in fact
differ in their preferences for organic standards depending on the country in which they
reside. These differences suggest a decline in global welfare, ceteris paribus, should
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harmonization of organic standards be undertaken. In other words, it is assumed that
consumers are heterogeneous across countries when it comes to organic standards. The
results should provide some insight into consumer preferences for organic standards and
will either reject or support the proposition.
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Chapter 8
Conjoint Results
8.1 Introduction
The theoretical framework for conjoint analysis was discussed in Chapter 7. This
chapter presents the conjoint results for the consumer survey regarding organic
purchases. Conjoint analysis was deemed an appropriate method of measuring consumer
preferences for organic standards, as it allows organic products to be differentiated by
the standards under which they are produced. Data could then be gathered regarding
consumer’s perceptions of specific organic standards. To learn whether consumer
preferences differ across countries, the survey was conducted at retail outlets at a
number of locations in Canada, the United States and the United Kingdom in 2004.
The results from the conjoint analysis are compiled and analyzed in this chapter.
The chapter begins with a description of the conjoint section of the survey. This is
followed by a discussion of the results for each product in each country including the
trade-offs between attribute levels within evaluated products and within hypothetical
products. The population samples from each country are examined in aggregate and then
are broken down by the frequency of organic purchases. A statistical analysis is
conducted to determine if differences in consumer preferences in different countries are
statistically significant. Finally, the implications of the results for the international
harmonization of organic standards are discussed.
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8.2 Conjoint Results
The second section of the survey asked consumers to examine one of two
products, either organic bagged salad or organic ground beef, and then to rate it based
on the standards under which it was produced. The consumer was presented with ten
possible standard combinations to evaluate. The results of the evaluations are analysed
using conjoint analysis. Conjoint analysis computes a “part-worth” utility value for each
attribute level and an assessment of the relative importance of each attribute in the
consumer’s preference rating. The part-worth utility coefficients can be used to calculate
the total utility a consumer derives from a product composed of specified attribute
levels.
Using SPSS conjoint software, the conjoint analysis was conducted using the
Ordinary Least Squares (OLS) estimation method. The analysis is based on a dummy
variable approach, where a factor level takes on a value of 1 if it is present in the
product description and 0 if it is not. The analyses were completed for all three countries
separately, first for all consumers and then in population segments divided by the
frequency of organic purchases. The results from the salad survey will be examined
first, followed by a discussion of the results from the beef survey.
8.2.1 Salad
As outlined in Chapter 7, four attributes were examined in the salad survey.
Preferences for buffer zones, tobacco sprays, labelling and price were determined via
the conjoint analysis. While it appears that the order of preferences differed across all
countries, a more detailed statistical analysis must be conducted to determine if these
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differences are actually statistically significant. The overall results will be broken down
by country and then by consumer frequency of purchases within each country.
8.2.1.1 Canada
Ninety-four salad surveys were completed in Saskatoon and Vancouver. Of the
94, 90 were usable. This section provides the results of the conjoint analysis conducted
in Canada. The generated attribute importance values are examined. This is followed by
a thorough discussion of the calculated utility coefficients and the implicit trade-offs
made by consumers. Finally, the Canadian sample will be segmented into two groups;
those people who purchase organic food frequently and those who purchase organic
food infrequently. The conjoint results from these two groups will be compared and
conclusions will be drawn.
All of the reported importance scores are derived from the part-worth values
found in Appendix C. Importance scores are calculated by diving the part-worth range
of an attribute by the sum of all range values. As shown in Figure 8.1, Canadians
consumers felt that, relative to the other 3 attributes, the use of tobacco sprays was the
most important issue when evaluating organic bagged salad. This attribute was followed
by price, the use of buffer zones, and high labelling standards. SPSS conjoint software
generates part-worth or utility values for each attribute level. The average part-worth
estimates for Canadian respondents are outlined in Table 1 of Appendix C. The part-
worth values can be used to estimate the utility a consumer receives from each
individual product. In addition, the values can then be used to determine how consumers
trade-off between attributes.
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The Pearson’s R correlation coefficient was .982 for the group summary. The
Pearsons’ R coefficient is a measurement of the ability of the model to accurately
predict the respondent’s evaluations of the hold-out profiles. While a Pearson’s R
coefficient of 1.00 is ideal, .982 still represents a high degree of accuracy. The Kendall’s
tau coefficient is calculated separately for the eight profiles and the two hold-out
profiles. In this analysis, the Kendall’s tau coefficient equalled 1.00 in both cases,
indicating that there is a high level of correlation between the observed and predicted
preferences. In addition, this signifies that the model was a good fit.
22.77
28.85
22.4925.88
0
5
10
15
20
25
30
35
BufferZones
TobaccoSprays
Labelling Price
Impo
rtan
ce S
core
Figure 8.1 Relative Importance of Salad Attributes (Canada) (n=90)
Utility calculations for the most preferred profile can be seen in Table 8.1. This
is followed by utility ratings for the remaining profiles in descending rank order (Table
8.2).
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Table 8.1 – Total Utility for the Most Preferred Attribute Combination (Profile 8)
Most Preferred Combination Part-worth Buffer Zones Sufficient in size 0.9944Tobacco Sprays Prohibited 1.1417Labelling 70-95% 0.8889Price Low 0.6704
Constant 4.2324Total Utility 7.9278
Source: Author’s CalculationTable 8.2 - Total Utility Calculations for Remaining 7 Profiles
Utility Calculations for 7 Profiles Rated by Respondents
Profile 5 Part-worthBuffer Zones No requirements -0.9944Tobacco Sprays Prohibited 1.1417Labelling 70-95% 0.8889Price Low 0.6704
Constant 4.2324Total Utility 5.939
Profile 1Buffer Zones Sufficient 0.9944Tobacco Sprays Prohibited 1.1417Labelling <70% -0.8889Price High -0.5324
Constant 4.2324Total Utility 4.9472
Profile 7Buffer Zones Sufficient 0.9944Tobacco Sprays Allowed -1.1417Labelling 70-95% 0.8889Price Medium -0.138
Constant 4.2324Total Utility 4.836
Profile 2Buffer Zones Sufficient 0.9944Tobacco Sprays Allowed -1.1417Labelling <70% -0.8889Price Low 0.6704
Constant 4.2324Total Utility 3.8666
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Profile 6Buffer Zones No requirements -0.9944Tobacco Sprays Prohibited 1.1417Labelling <70% -0.8889Price Medium -0.138
Constant 4.2324Total Utility 3.3528
Profile 4Buffer Zones No requirements -0.9944Tobacco Sprays Allowed -1.1417Labelling 70-95% 0.8889Price High -0.5324
Constant 4.2324Total Utility 2.4528
Profile 3Buffer Zones No requirements -0.9944Tobacco Sprays Allowed -1.1417Labelling <70% -0.8889Price Low 0.6704
Constant 4.2324Total Utility 1.8778
Source: Author’s Calculation
By using the utility values to rank order the profiles, implicit trade-offs by
respondents can be observed. Consumers will trade-off between attribute levels when
deciding which product to purchase and consume. For example, even though, on
average, price was given the second highest importance rating, Profile 7 rated higher
than Profile 2, although Profile 7 has a medium price level and Profile 2, a low one. This
implies that price is not the only attribute with which consumers are concerned. The two
profiles are similar in that they both have buffer zones that are sufficient in size and
allow tobacco sprays, but they differ in that Profile 7 has a medium price level and
stricter labelling standards and Profile 2 has a low price level and more lenient labelling
standards. The stricter labelling standards are traded off against the increase in price.
Overall, Profile 7 has a higher incremental utility value. The higher part worth value for
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stricter labelling standards (0.8889) compared with lenient standards (-0.8889) is greater
than the negative incremental utility change of the low price (.6704) to the medium price
(-.1380). This implies that consumers, on average, were willing to pay a higher price if it
meant that labelling standards were stricter.
It is also possible to calculate utility values for additional products that were not
rated by the respondents. Comparing predicted utility values of a hypothetical product is
a good indicator of implicit trade-offs. For example, a hypothetical product with no
requirements for buffer zones, lenient labelling standards, a prohibition on the use of
tobacco sprays and a medium price level would have a total worth of :
(-.9944) + (1.1417) + (-.8889) + (.6704) + (4.2324) = 3.3528. Comparing this
hypothetical product with the product described in Profile 1, it is possible to observe the
implicit trade-offs between price and buffer zones. Profile 1 has a total utility value of
4.9472, has buffer zones that are sufficient in size, prohibits tobacco sprays, has lenient
labelling standards and a higher price. The utility gain from the decrease in price from
the high price level to the medium price level is not sufficient to cover the decrease in
utility from the loss of the buffer zones. If another hypothetical product were to be
examined with the same characteristics except with a low price level, it would be
observed that the lower price still does not make up for the loss of the buffer zones. This
signifies that consumers are concerned with the buffer zone regions on organic farms,
and are willing to pay more to have them in place.
Canadian organic consumers appear to be less price sensitive than expected. A
decrease in the standard level is never preferred to a decrease in price. Organic
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consumers purchase organic products for specific reasons, and these principles are not
compromised because of price increases.
Does this result change if consumers are divided by the frequency of their
organic purchases? By segmenting the population into two groups, conclusions can be
drawn regarding preference strength in terms of frequency of organic purchases. The
first group will consist of those consumers who stated that they purchased organic
products frequently or whenever possible, while the second group contains those
consumers who occasionally, seldom or never purchase organic goods.
The results indicate some similar preferences between frequent and occasional
purchasers. Both groups place the highest importance on the use of tobacco sprays.
However, from this point the groups diverge. It appears that frequent purchasers of
organics place the most importance on the use of tobacco sprays, followed by labelling
standards, buffer zones and then price. While those consumers who seldom purchase
organics, feel that, in order of importance, price, buffer zones and then labelling should
follow tobacco sprays (see Figures 8.2 and 8.3). As shown in Table 8. 3, those
purchasers who seldom purchase organic goods would be willing to trade off buffer
zone requirements or labelling standards for the low price level. Consumers who
purchase organics frequently are less willing to trade higher standards for lower prices.
In fact, these consumers would always prefer the higher price to a decrease in the
standard.
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Table 8.3 - Consumer Preferences in Segmented Groups (Canadian)
Attributes and levels Part-worthsfor Frequent Purchasers
AttributeImportance
(%)for
Frequent Purchasers
Part-worths for
Occasional-Never
Purchasers
AttributeImportance
(%)for Occasional
to Never Purchasers
Buffer Zones No requirements -1.1229 -.7500 Sufficient in size 1.1229 24.46 .7500 19.57Tobacco Sprays Allowed -1.1441 -1.1371 Prohibited 1.1441 27.46 1.1371 31.51Labelling <70% -1.0169 -.6452 70-95% 1.0169 24.84 .6452 18.02Prices $2.25/200g .5876 .8280 $3.75/200g -.2175 23.24 .0134 30.90 $5.25/200g -.3701 -.8414Source: Author’s Calculation
Figure 8.2 Relative importance of salad attributes by frequent consumers of organic goods (Canada) (n= 59)
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19.52
31.51
18.02
30.9
0
5
10
15
20
25
30
35
BufferZones
TobaccoSprays
Labelling Price
Impo
rtan
ce S
core
Figure 8.3 Relative importance of salad attributes by occasional consumers of organic goods (Canada) (n=31)
It appears as though the frequency of organic purchases is correlated with a
consumer’s preference for organic standards. Consumers who seldom purchased organic
products are more concerned about price levels and less concerned about the strictness
of the standards than those who purchase organic goods frequently. This is to be
expected as consumers who seldom purchase organics may have less knowledge of
organics or may not believe that there is a substantial difference between conventional
and organic products and thus would not be wiling to pay more for the organic product.
Conversely, it also indicates that frequent purchasers have strong preferences for
organic standards. This conforms to previous expectations.
193
8.2.1.2 United States
Twenty-five salad surveys were completed in the Seattle area in 2004. Twenty-
three of the surveys were completed correctly and are included in this analysis. This
section of the chapter describes the conjoint results from the salad surveys conducted in
the US. First, the calculated importance values are discussed. This is followed by a
discussion of the utility values and the trade-offs consumers make between attributes.
Finally, the population is segmented by frequency of organic purchases and these results
are examined.
Consumers in the US differ slightly from Canadians in their preferences for
organic standards. By evaluating each product in the survey, consumers are
unknowingly assigning a utility value to the attribute levels within that product. The
utility values are available in Table 2 of Appendix C and will again be used to
demonstrate the implicit trade-offs between attribute levels in both the tested and
hypothetical products. As depicted in Figure 8.4, US consumers feel that labelling is the
most important standard issue, followed by buffer zones, price and then tobacco sprays
The Pearson’s R coefficient equalled .945 for the US analysis, signifying
reasonably accurate predictions for the hold-out profiles. The Kendall’s tau coefficient
is equal to .929 for the 8 profiles, and -1.00 for the hold-out profiles. The negative
Kendall’s tau value indicates that there is discordance between the hold-out profiles and
the remaining tested profiles. This is of some concern, as it may imply a lack of
understanding of the survey by respondents.
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27.07
22.66
27.33
22.94
0
5
10
15
20
25
30
BufferZones
TobaccoSprays
Labelling Price
Impo
rtan
ce S
core
Figure 8.4 Relative importance of salad attributes (US) (n=23)
The tested products can be ordered from most preferred to least preferred based
on the utility scores attached to the attribute levels found within the product. Table 8.4
provides the product description for the most preferred product, with Table 8.5 ranking
the remaining 7 profiles. The order of the products differs from that of the Canadian
consumers, as Americans place more importance on different attributes than their
Canadian counterparts.
Table 8.4 - Total utility for the most preferred attribute combination (Profile 8)
Most Preferred Combination Part-WorthBuffer Zones Sufficient in size 1.1739Tobacco Sprays Prohibited .6196Labelling 70-95% 1.1848Price Low 0.5652
Constant 4.4348Total Utility 7.9783
Source: Author’s Calculation
195
Table 8.5 - Total utility calculations for remaining 7 profiles
Utility Calculations for 7 Profiles Rated by RespondentsProfile 7 Part WorthBuffer Zones Sufficient 1.1739Tobacco Sprays Allowed -0.6196Labelling 70-95% 1.1848Price Medium 0.1304
Constant 4.4384Total Utility 6.3079
Profile 5Buffer Zones No requirements -1.1739Tobacco Sprays Prohibited 0.6196Labelling 70-95% 1.1848Price Low 0.5652
Constant 4.4348Total Utility 5.6305
Profile 2Buffer Zones Sufficient 1.1739Tobacco Sprays Allowed -0.6196Labelling <70% -1.1848Price Low 0.5652
Constant 4.4348Total Utility 4.3695
Profile 1Buffer Zones Sufficient 1.1739Tobacco Sprays Prohibited 0.6196Labelling <70% -1.1848Price high -0.6957
Constant 4.4348Total Utility 4.3478
Profile 4Buffer Zones No requirements -1.1739Tobacco Sprays Allowed -0.6196Labelling 70-95% 1.1848Price high -0.6957
Constant 4.4348Total Utility 3.1304
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Profile 6Buffer Zones No requirements -1.1739Tobacco Sprays Prohibited 0.6196Labelling <70% -1.1848Price medium 0.1304
Constant 4.4348Total Utility 2.8261
Profile 3Buffer Zones No requirements -1.1739Tobacco Sprays Allowed -0.6196Labelling <70% -1.1848Price low 0.5652
Constant 4.4348Total Utility 2.0217
Source: Author’s Calculation
By examining the utility scores given to specific attribute levels, it is possible to
observe implicit trade-offs made by respondents. For example, in Profile 7 the labelling
requirements are strict (70-95%) and the price is at the medium level. Profile 7 is ranked
higher than Profile 2, even though Profile 2 has a lower price. Comparing the utility
values, the higher part-worth value for stricter labelling (1.1848) compared with the
utility value for a more lenient standard (-1.1848) outweighs the loss in utility from a
increase in price from the low price (.5652) to the medium price (.1304). Consumers are
not willing to trade-off a lower price for a lower labelling standard, even if the price was
to increase to the high level. Consumers, on average, would still prefer an organic
product with the higher price but a stricter labelling standard to one with a lenient
labelling standard but a low price, all other attributes being held constant.
To determine how consumers trade-off between buffer zones and price, a
hypothetical product was created. The hypothetical product description consists of no
tobacco sprays, no buffer zones, lower labelling standards and a low price level. It has
197
an estimated total worth of: (-1.1739) + (.6196) + (-1.1848) + (.5652) + (4.4348) =
3.2609. This product can be compared with the product outlined in Profile 1, which has
the same characteristics with the exception that the price is at the high price level and
buffer zones are required. Even when the price jumps from the low level to the high
level, US consumers, on average, still prefer Profile 1 because of the requirements for
buffer zones. US respondents always prefer a higher standard except in the case of
tobacco sprays. In this case, they are willing to accept a lower standard in exchange for
a lower price if their only other option is a high standard and a high price. In all other
cases, the higher standard is preferred even if it requires paying a higher price.
Consumers in the US differ from consumers in Canada in terms of the weight of
importance placed on the different attributes. Canadians are most concerned with
tobacco sprays whereas Americans are willing to forgo a ban on tobacco sprays if a low
price can be obtained. However, in all other cases, Americans are still more concerned
about stricter organic standards than higher prices.
Different preferences may be observed if the population sample is segmented by
the frequency of their organic purchases. The utility values for the various attribute
levels can be seen in Table 8.6. Those consumers who purchase organic food frequently,
value stricter labelling standards most, followed by buffer zones, price and tobacco
controls (see Figure 8.5). Those consumers who seldom, never or only occasionally
purchase organic goods place more importance on buffer zones. Buffer zones are
followed by tobacco sprays, labelling schemes and pricing (see Figure 8.6). The
Pearson’s R coefficients for the seldom purchase group and the frequent purchase group
are .949 and .94 respectively indicating good predictive accuracy.
198
Table 8.6 - Consumer preferences in segmented groups (US)
Attributes and levels Part-worthsfor Frequent Purchasers
AttributeImportance
(%)for
Frequent Purchasers
Part-worths for
Occasional-Never
Purchasers
AttributeImportance
(%)for Occasional
to Never Purchasers
Buffer Zones No requirements -1.2266 -1.0536 Sufficient in size 1.2266 26.90 1.0536 27.46Tobacco Sprays Allowed -.7422 -.3393 Prohibited .7422 21.57 .3393 25.14Labelling <70% -1.2266 -1.0893 70-95% 1.2266 28.38 1.0893 24.92Prices $1.20/5oz .5729 .5476 $1.89/5oz -.0208 23.14 .4762 22.48 $2.58/5oz -.5521 -1.0238Source: Author’s Calculation
26.9
21.57
28.38
23.14
0
5
10
15
20
25
30
Buffer Zones TobaccoSprays
Labelling Price
Impo
rtanc
e Sc
ore
Figure 8.5 Relative importance of salad attributes by frequent consumers of organic goods (US) (n=16)
199
27.4625.14 24.92
22.48
0
5
10
15
20
25
30
Buffer Zones TobaccoSprays
Labelling Price
Impo
rtanc
e Sc
ore
Figure 8.6 Relative importance of salad attributes by occasional consumers of organic goods (US) (n=9)
Those consumers who seldom purchase organic products are willing to accept a
lower standard for tobacco sprays if it means that the price will decrease. In every other
case, the stricter standard is preferred to a decrease in price. Consumers who purchase
organic food more frequently are very concerned with standards and it would appear
that they will not compromise standards for price. This mirrors the Canadian results
where frequent organic purchasers exhibited stronger preferences.
Similar to Canadian respondents, American consumers who purchase organic
products more frequently are less price sensitive than consumers who seldom purchase
organic goods. The preferences of the US consumers for organic standards are generally
matched by the standards in place under the National Organic Program. This result was
200
also found in a study of US consumers’ preferences for organic standards conducted by
Conner and Christy (2004).
8.2.1.3 The United Kingdom
Fifty salad surveys were conducted in Aberystwyth, and of those, 49 were
usable. Respondents in the United Kingdom differed from both the American and
Canadian respondents in terms of the relative average importance of the individual
standards. As illustrated in Figure 8.7, consumers in the UK, on average, felt that the
requirement for buffer zones was the most important attribute. Buffer zones are
followed by price, labelling requirements and the use of tobacco sprays. Hence, the rank
order of attributes differs among all three countries. It is interesting to note that the
difference between the first and second most important attributes as scored by UK
consumers is much larger than between those in the US and Canadian surveys. Is this an
indication that UK consumers are more wary of pesticides than their North American
counterparts?
201
30.57
20.4822.81
26.14
0
5
10
15
20
25
30
35
BufferZones
TobaccoSprays
Labelling Price
Impo
rtan
ce S
core
Figure 8.7 Relative importance of salad attributes (UK) (n=49)
The part-worth utility values calculated for UK respondents are displayed in
Table 3 of Appendix C. These values are created by averaging all the utility values
calculated for respondents. The total utility for each profile can be calculated by
summing the relevant part-worth utility coefficients. Table 8.7 shows the most preferred
product, while Table 8.8 ranks the remaining 7 profiles. The Pearson’s R coefficient
is .971, indicating that the model has good predictive ability. The Kendall’s tau
coefficients for the profiles and the hold-outs are .929 and -1.00 respectively. Again, the
negative value suggests that the hold-outs were in discordance with the profiles. This
may imply that the model was incorrectly specified, although the positive values for the
profiles would tend to suggest otherwise.
202
Table 8.7 - Total utility for the most preferred attribute combination (Profile 8)
Most Preferred Combination Part-WorthBuffer Zones Sufficient in size 1.0969Tobacco Sprays Prohibited .6327Labelling 70-95% .8214Price Low .4218
Constant 4.4711Total Utility 7.4439
Source: Author’s Calculation
Table 8.8 - Total utility calculations for remaining 7 profiles (UK)
Utility Calculations for 7 Profiles Rated by RespondentsProfile 7 Part-WorthBuffer Zones Sufficient 1.0969Tobacco Sprays Allowed -0.6327Labelling 70-95% 0.8214Price Medium 0.1514
Constant 4.4711Total Utility 5.9081
Profile 5Buffer Zones No requirements -1.0969Tobacco Sprays Prohibited 0.6327Labelling 70-95% 0.8214Price Low 0.4218
Constant 4.4711Total Utility 5.2501
Profile 1Buffer Zones Sufficient 1.0969Tobacco Sprays Prohibited 0.6327Labelling <70% -0.8214Price High -0.5731
Constant 4.4711Total Utility 4.8062
Profile 2Buffer Zones Sufficient 1.0969Tobacco Sprays Allowed -0.6327Labelling <70% -0.8214Price Low 0.4218
Constant 4.4711Total Utility 4.5357
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Profile 6Buffer Zones No requirements -1.0969Tobacco Sprays Prohibited 0.6327Labelling <70% -0.8214Price Medium 0.1514
Constant 4.4711Total Utility 3.3369
Profile 4Buffer Zones No requirements -1.0969Tobacco Sprays Allowed -0.6327Labelling 70-95% 0.8214Price High -0.5731
Constant 4.4711Total Utility 2.9898
Profile 3Buffer Zones No requirements -1.0969Tobacco Sprays Allowed -0.6327Labelling <70% -0.8214Price Low 0.4218
Constant 4.4711Total Utility 2.3419
Source: Author’s Calculation
From the generated utility values, some implicit trade-offs can be observed. In
most cases, higher standards are more important than price even though price was rated
the second most important attribute on average. For example, Profile 1 is a bag of
organic salad produced using buffer zones that are sufficient in size to prevent
contamination. There was also no use of tobacco sprays, the labelling requirements are
more lenient and it was priced at a high level. Profile 2 is identical except that it was
produced in a system that allows tobacco sprays and the price level is low. Even though
the price is higher in Profile 1, UK respondents still indicate a stronger preference for
this product. This is due to the fact that the loss in utility from the price decrease (from
204
0.4218 to -.5731) is compensated for by the gain in utility from the prohibition of
tobacco sprays (from -0.6327 to 0.6327).
If a hypothetical product were created that contained no tobacco sprays, was
produced with a buffer zone, had high labelling standards and was priced at a medium
price level, it is easy to determine that it would be preferred to a product with more
lenient standards and a low price level, all other things being equal. The utility value for
the hypothetical product is calculated by summing the utility coefficients for each
attribute level plus the constant: (1.0969) + (.6327) + (.8214) + (.1514) + (4.4711) =
7.1735. The total utility gained from the hypothetical product is higher than that of the
product with a low price level and lenient labelling standards. The higher price is traded-
off against the stricter labelling requirements, and on average, consumers prefer the
higher labelling standard. This remains true even if the price is increased to the high
level.
If the respondents are divided into two groups based on the frequency of their
organic purchases and then analyzed, there are slight differences from the previous
results. Those consumers who purchase organic products frequently rated the attributes
on average in the following descending order: buffer zones, price, tobacco sprays and
labelling (Figure 8.8). Those consumers who seldom purchase organic products rated
the profiles in a slightly different order: buffer zones, labelling, price and tobacco sprays
(Figure 8.9). It is interesting that those consumers who seldom purchase organic goods
place less importance on price than those who purchase them frequently. Table 8.9
provides the average utility ratings for these two sub-groups.
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Table 8.9 - Utility values for frequent and occasional consumers of organic goods
Attributes and levels Part-worthsFor Frequent Purchasers
AttributeImportance
(%)For
frequent purchasers
Part-worths for occasional-
never purchasers
AttributeImportance
(%)For occasional
to never purchasers
Buffer Zones No requirements -1.2537 -.7417 Sufficient in size 1.2537 32.57 .7417 26.04Tobacco Sprays Allowed -.6507 -.5917 Prohibited .6507 21.22 .5917 18.79Labelling <70% -.7684 -.9417 70-95% .7684 19.77 .9417 29.7Prices£1.00/150g .3676 .5444£2.00/150g .1544 26.44 .1444 25.47£3.00/150g -.5221 -.6889Source: Author’s Calculation
Figure 8.8 Relative importance of attributes for frequent purchasers of organic goods (UK Salad) (n=34)
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26.04
18.79
29.7
25.47
0
5
10
15
20
25
30
35
Buffer Zones TobaccoSprays
Labelling Price
Impo
rtanc
e Sc
ore
Figure 8.9 Relative importance of attributes for occasional purchasers of organic goods (UK Salad) (n=15)
8.2.1.4 Consumer Preferences vs. National Standards (Salad)
Are consumer preferences satisfied by the current national standards in the UK,
the US and Canada? If a standard is established correctly, it should satisfy the majority
of consumers. In every survey there was one profile that reflected the national standard
of that country (although it was not identified as such to respondents). This section will
examine the differences between consumer preferences for standards and the standards
that are in place in the three countries.
The Canadian voluntary standard is that listed in Profile 1 – it requires buffer
zones to prevent contamination, it prohibits the use of tobacco sprays and the word
organic can appear in the ingredient list of products containing less than 70% organic
207
ingredients. Canadians ranked this product 3rd in the conjoint analysis. If the utility value
for the product is calculated at the medium price level, it remains in third place (5.3416),
however, if the price is decreased to low, it would move up to second (6.15).
As the US and Canadian standards for those attributes studied are identical, it is
not possible to compare the rating for the US standard, however, it is interesting that the
Canadian participants scored the EU’s standard 7th overall (when its utility was
calculated), even though many Canadians believed that the EU standard was stricter
based on a earlier question in the survey. Do the differences between the national
standard and preferences matter to Canadians? The labelling requirements scored the
lowest, in order of importance; so organic consumers may be willing to forgo the
labelling requirements for another more important issue.
The US standard is identical to the Canadian standard in terms of those attributes
studied. The profile describing the US standard was implicitly ranked 4th by American
consumers. If the utility is calculated at the medium price level, it equals 5.1739, leaving
it in fourth place. Even if the price is dropped to the low level, it remains in fourth
(5.6087). American consumers are similar to Canadians in that the majority indicated
that they believe the EU’s standards were superior to their own, however, they ranked
the product produced under the EU standards in 6th place. Labelling requirements are the
number one concern for US consumers relative to the other attributes evaluated; yet
consumer preferences do not match the national standards.
The EU’s standards can be found in Profile 4. The EU does not require a buffer
zone between organic and non-organic farms, however, it allows the use of tobacco
sprays, and the word “organic” cannot appear in the ingredient list of goods containing
208
less than 70% organic ingredients. EU consumers ranked this product 7th of the eight
profiles. If the price is changed from high to medium, it moves up one position to 6th, as
its utility is equal to 3.7143. However if the price level is changed to low, the profile
would be ranked fifth (3.9847). EU consumers rated the US/Canadian standard 4th
overall. Consumers in the UK were primarily concerned with buffer zone requirements.
The lack of these requirements in the existing EU standard begs the question if
consumers were consulted during the standardization process. Tobacco sprays were the
least important attribute for consumers, so the difference between actual consumer
preferences and the EU standard may not be as much of a concern.
The national standards for organic bagged salad did not match the stated desires
of consumers in any of the cases; however, the desires of producers must also be
considered when designing standards and this may explain some of these disparities.
The next section of the chapter will determine whether the differences in preferences are
statistically significant.
8.2.1.5 Statistical Differences between Consumers in Different Countries (Salad)
Consumers in the three countries attached different levels of importance to each
of the attributes evaluated, but are these differences significant? A statistical test must
be conducted to determine the level of statistical significance between the calculated
preferences. The Tukey method is intuitive and simple to apply. It allows for multiple
comparisons across population samples. It is applicable if the groups to be compared
consist of estimates of all pairs µi-µi’ (factor levels to compare) (Neter, Wasserman and
Kutner 1985). In other words, the attributes being compared are consistent across all the
209
test groups. It is a conservative method of comparison when sample sizes are unequal
with a confidence coefficient of at least (e.g. =.90) (Neter, Wasserman and
Kutner 1985).
The Tukey method of multiple comparisons uses a studentized range distribution
to test mean responses across a number of samples (Neter, Wasserman and Kutner
1985). With r independent observations, from a normal distribution, a mean,
and a variance of , the range for this set is equal to . An
estimate of the variance based on v degrees of freedom can be established. The
studentized range is equal to the ratio of . Values of q are tabulated and
represent the probability that a range is not more than q times as great as an independent
sample standard deviation based on v degrees of freedom (Neter, Wasserman and
Kutner 1985).
“The test establishes multiple comparison confidence limits for all pairwise
combinations” ( Neter, Wasserman and Kutner 1985, p.575). It is based on the
differences between the means of the two groups; i.e.
(8.1)
where . (8.2)
The multiple confidence limits for the comparisons are as follows:
210
The SSE is calculated in two steps. First, the square of all importance scores per
attribute per individual respondent are summed. Second, the importance scores for each
respondent in each country are summed and divided by the total number of respondents
in that country. This is an average importance score per country. The average
importance scores for all three countries are summed. This second number (sum of
average importance scores) is subtracted from the first, giving the SSE (eq. 8.5). To
calculate MSE, the SSE is divided by the total number of respondents minus the number
of countries (eq. 8.4). For example, in the case of buffer zones, the average importance
scores for each respondent for buffer zones is summed, and then squared and summed.
The first value is subtracted from the second giving the SSE for buffer zones
(145345.63), which in turn is used to determine the MSE (145345.63/162-3), where
n=162 (the total number of respondents) and r=3 (the number of populations). The MSE
is calculated and equals 914.12.
Using the average scores generated in the summary for each population group,
, can then be calculated for each pair (eq. 8.2). T was calculated by using the value
for q provided in the percentile tables in Neter, Wasserman and Kutner (1985). For 162
observations and an r value of 3, the q value is equal to approximately 3.33. Table 8.10
211
provides the confidence limits at a 5% confidence coefficient for the attributes measured
in the salad survey.
With respect to the survey data, if a generated Tukey confidence interval
comparing two samples contains zero, the two samples have statistically equal mean
responses. The test is run by comparing the mean responses (importance scores) to each
attribute between the UK, Canada and the US. All of the calculated confidence limits
cover zero. Therefore, the differences between attribute scores in the different countries
cannot be considered statistically significant
212
Table 8.10 - Country comparisons for the salad attributes
Attribute/Country Comparison
Confidence Intervals
Buffer ZonesCAN vs. US -12.29CAN vs. UK -4.82US vs. UK -14.45Tobacco SpraysCAN vs. USCAN vs. UKUS vs. UKLabellingCAN vs. USCAN vs. UKUS vs. UKPriceCAN vs. USCAN vs. UKUS vs. UK
213
8.2.2 Beef
The second set of surveys examined consumer preferences for standards used to
produce organic ground beef. The source of organic cattle, the use of fish feeds, the use
of antibiotics for medicinal treatment and price were the attributes included in the
profiles evaluated by survey participants. Similar to the previous section, the results of
the conjoint analysis in each country are presented. This is followed by a discussion of
the trade-offs made by consumers in each country. In addition, the populations are
segmented by the frequency of their organic purchases and then evaluated. Finally, a
statistical analysis is performed to determine if the differences in consumer preferences
across countries is statistically significant.
8.2.2.1 Canada
Eighty-two surveys on organic beef were collected across Canada. Of these, 80
were usable for the conjoint experiment. Consumers evaluated the products presented to
them and their ratings are used in the conjoint analysis to generate part-worth utility
coefficients. These part-worth utility coefficients can be used to calculate the total utility
received from a specific product. Table 8.11 presents the most preferred organic beef
product, as evaluated by Canadian consumers. The utility values for the remaining 7
profiles are described in Table 8.12. The average utility coefficients for the surveys
conducted in Canada can be found in Table 4 of Appendix B.The results indicate that
consumers in Canada are primarily concerned with the use of antibiotics in organic
cattle. Price is the second most important attribute on average, for those Canadians
interviewed. The use of fish feeds and the source of the cattle are on average ranked
214
third and fourth, respectively. Figure 8.8 illustrates the average importance ratings
generated by the conjoint analysis.
The results of the conjoint analysis can be tested for accuracy by observing the
Kendall’s tau coefficients and the Pearson’s R coefficient. For the Canadian sample, the
Pearson’s R coefficient is .977, which reflects a reasonable amount of predictive
accuracy. The Kendall’s tau coefficients for the profiles and the hold-outs are .982 and
1.00, indicating that the model was a good fit.
20.59
24.67
29.15
25.59
0
5
10
15
20
25
30
35
Source ofCattle
Fish Feeds Antibiotics Price
Impo
rtanc
e Sc
ore
Figure 8.10 Relative importance of beef attributes (Canadian) (n=80)
215
Table 8.11 - Total utility for the most preferred attribute combination(Profile 5)
Most Preferred Combination Part-WorthSource of Organic Cattle No non-organic .5478Fish Feeds Prohibited .9775Antibiotics Prohibited 1.2388Price Low .6667
Constant 4.3305Total Utility 7.7613
Source: Author’s CalculationTable 8.12 - Total utility calculations for remaining 7 profiles (CAN Beef)
Utility Calculations for 7 Profiles rated by RespondentsProfile 8 Part-WorthSource of Cattle Up to 40% non -0.5478Fish Feeds Prohibited 0.9775Antibiotics Prohibited 1.2388Price Low 0.6667
Constant 4.3305Total Utility 6.6657
Profile 6Source of Cattle No non-organic 0.5478Fish Feeds Prohibited 0.9775Antibiotics Allowed -1.2388Price Medium -0.0552
Constant 4.3305Total Utility 4.5618
Profile 4Source of Cattle No non-organic 0.5478Fish Feeds Allowed -0.9775Antibiotics Prohibited 1.2388Price High -0.6114
Constant 4.3305Total Utility 4.5282
Profile 7Source of Cattle Up to 40% non -0.5478Fish Feeds Allowed -0.9775Antibiotics Prohibited 1.2388Price Medium -0.0552
Constant 4.3305Total Utility 3.9888
216
Profile 3Source of Cattle No non-organic 0.5478Fish Feeds Allowed -0.9775Antibiotics Allowed -1.2388Price Low 0.6667
Constant 4.3305Total Utility 3.3287
Profile 1Source of Cattle Up to 40% non -0.5478Fish Feeds Prohibited 0.9775Antibiotics Allowed -1.2388Price High -0.6114
Constant 4.3305Total Utility 2.91
Profile 2Source of Cattle Up to 40% non -0.5478Fish Feeds Allowed -0.9775Antibiotics Allowed -1.2388Price Low 0.6667
Constant 4.3305Total Utility 2.2331
Source: Author’s Calculation
The utility coefficients allow the researcher to observe the trade-offs made by
the consumer. While on average, price was rated the second most important attribute, in
many cases, consumers were unwilling to forgo a higher standard for a lower price. For
example, Profile 4 is rated higher than Profile 7 even though Profile 4 is priced at a
higher price level. Profile 7 does not allow any non-organic cattle to be called organic,
whereas Profile 4 allows ranchers to source up to 40% of their cattle from non-
organically raised parents. The incremental increase in utility from the higher standards
for sourcing outweighs the decrease in utility from a higher price.
Consumers are only willing to pay a limited amount to ensure that cattle claimed
to be organic are sourced from organic farms. Consider a hypothetical situation in which
217
a product is created where the cattle were raised organically from the last three months
of gestation, fish feeds are prohibited, antibiotic use for medicinal purposes is allowed
and the price level is set at high. The utility can be calculated as follows: (.5478) +
(.9775) + (-1.2388) + (-.6114) + (4.3305) = 4.0056. If an additional hypothetical product
were examined, which had the same production standards with the exception that up to
40% of the cattle could be raised organically once they were weaned and the price level
was set to low, its utility would equal 4.1881. This is slightly higher than the previous
hypothetical case. If the price level were set to medium, as in Profile 6, consumers
would prefer this product to the one with the lower price. Therefore, while consumers
are willing to pay a certain additional amount for stricter standards, in this case, the
source of cattle was not sufficiently important to warrant paying a high price.
By dividing the population into two groups; those people who frequently
purchase organic products and those who do not, a more detailed analysis can be
conducted of preferences for organic goods. In Canada, those consumers who seldom
purchase organic beef/goods implicitly regarded the use of antibiotics as the most
important attribute. Antibiotic use was followed by price, the use of fish feeds and the
source of the organic cattle. Figure 8.11shows the relative importance of the attributes
evaluated by these consumers. Those consumers who purchase organic food more
frequently were equally concerned with the use of antibiotics; however, after antibiotic
use they were most concerned with the source of the cattle, the use of fish feeds and
finally price. Figure 8.12 illustrates their preferences.
The calculated utility that the average occasional and average frequent buyer of
organic food experiences from each attribute level is provided in Table 8.13. From these
218
values, it is apparent that those people who purchase organic food frequently would
always prefer a higher standard, even if it means a higher price level. This mirrors the
results from the Canadian salad survey. Those consumers who purchase organic foods
less frequently would also prefer higher standards; however, they are willing to give up
a stricter standard if it means a lower price level in the case of cattle sourcing.
Table 8.13 - Utility values for frequent and occasional consumers of organic goods (Can Beef)
Attributes and levels Part-worthsFor Frequent Purchasers
AttributeImportance
(%)For
frequent purchasers
Part-worths for occasional-
never purchasers
AttributeImportance
(%)For occasional
to never purchasers
Source of Cattle No non-organic .9122 .4648 Up to 40% non -.9122 24.66 -.4648 15.21Use of Fish Feeds Allowed -.9176 -1.0898 Prohibited .9176 23.35 1.0898 26.75Use of Antibiotics Allowed -1.3112 -1.1523 Prohibited 1.3112 29.38 1.1526 29.6Prices $7.00/kg .5922 .7865 $9.00/kg -.1259 22.61 -.0182 28.45 $11.00/kg -.4663 -.7682Source: Author’s Calculation
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15.21
26.7529.6 28.45
0
5
10
15
20
25
30
35
Source Fish feeds Antibiotics Price
Impo
rtanc
e Sc
ore
Figure 8.11 Relative importance of beef attributes by occasional purchasers of organic goods (Canada) (n=33)
24.6623.35
29.38
22.61
0
5
10
15
20
25
30
35
Source Fish feeds Antibiotics Price
Impo
rtanc
e Sc
ore
Figure 8.12 Relative importance of beef attributes by frequent purchasers of organic goods (Canada) (n=47)
220
8.2.2.2 United States
Twenty-six respondents in the US completed the beef survey; of the 26 surveys
submitted, 25 were usable. The actual calculated utility coefficients for the attribute
levels can be found in Table 5 of Appendix B. Consumers in the US and consumers in
Canada ordered the attributes for beef production similarly, although the average
importance values did differ. Consumers in the US implicitly regard the use of
antibiotics as the most important attribute followed by price, the use of fish feeds and
the source of the calves. Figure 8.13 illustrates these implicit preferences. The Pearson’s
R coefficient for the US beef survey is equal to .969 indicating a high degree of
predictive accuracy. The Kendall’s tau coefficient is equal to 1.00 for both the 8 profiles
and the 2 hold-outs. This suggests that the model was a good fit.
Figure 8.13 Relative importance of beef attributes (US) (n=25)
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The most preferred organic beef product was one in which the cattle were raised
organically from the last three months of gestation, there was no use of fish feeds or
antibiotics and the price was set at a low level. The calculated utility value for this
hypothetical product is shown in Table 8.14.
Table 8.14 -Total utility for the most preferred attribute combination
(Profile 5)
Most Preferred Combination Part-WorthSource of Organic Cattle No non-organic .7500Fish Feeds Prohibited .9800Antibiotics Prohibited 1.3600Price Low .7867
Constant 4.2733Total Utility 8.15
Source: Author’s Calculation
By examining the utility coefficients for the various attribute levels and the total
utility values for the remaining 7 profiles, the implicit trade-offs made by consumers can
be observed. Consumers will implicitly trade-off one attribute for another if the addition
of the attribute increases the product’s utility more than the loss of the other attribute.
Table 8.15 shows the calculated utility values for the remaining 7 profiles.
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Table 8.15 - Total utility calculations for remaining 7 profiles (US Beef)
Utility Calculations for 7 Profiles rated by RespondentsProfile 8 Part-WorthSource of Cattle Up to 40% non -7500Fish Feeds Prohibited .9800Antibiotics Prohibited 1.3600Price Low .7867
Constant 4.2733Total Utility 6.65
Profile 6Source of Cattle No non-organic .7500Fish Feeds Prohibited .9800Antibiotics Allowed -1.3600Price Medium .0667
Constant 4.2733Total Utility 4.71
Profile 4Source of Cattle No non-organic .7500Fish Feeds Allowed -0.9800Antibiotics Prohibited 1.3600Price High -.8533
Constant 4.2733Total Utility 4.55
Profile 7Source of Cattle Up to 40% non -.7500Fish Feeds Allowed -.9800Antibiotics Prohibited 1.3600Price Medium .0667
Constant 4.2733Total Utility 3.97
Profile 3Source of Cattle No non-organic .7500Fish Feeds Allowed -.9800Antibiotics Allowed -1.3600Price Low .7867
Constant 4.2733Total Utility 3.47
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Profile 1Source of Cattle Up to 40% non -.7500Fish Feeds Prohibited 0.9800Antibiotics Allowed -1.3600Price High -.8533
Constant 4.2733Total Utility 2.29
Profile 2Source of Cattle Up to 40% non -.7500Fish Feeds Allowed -.9800Antibiotics Allowed -1.3600Price Low .7867
Constant 4.2733Total Utility 1.97
Source: Author’s Calculation
As the order of importance placed on the various attributes is the same in the US
as it is in Canada, the trade-offs are also similar. Profile 4 is still preferred to Profile 7
because of its stricter standard for cattle sourcing. The difference in price between the
medium and high price is not substantial enough to counter this. However, if a
hypothetical product were created that contained the same attributes as Profile 7 with the
exception that price was now at a low level, this product would be preferred to Profile 4,
as the gain in incremental utility due to the price decrease outweighs the loss from the
lowering of the standard.
The part-worth utility coefficients calculated for these segmented groups provide
some insight into the minds of the consumers surveyed. Table 8.16 lists the part-worth
utility coefficients. From the table, it is apparent that the group who seldom purchases
organics is always willing to accept a lower standard if it means a lower price, except in
the case of antibiotic use. Those consumers who purchase organic foods whenever
224
possible are less price sensitive. They are always willing to forgo a lower price if it
ensures that a higher standard will be achieved.
Table 8.16 - Utility values for frequent and occasional consumers of organic goods (US Beef)
Attributes and levels Part-worthsFor Frequent Purchasers
AttributeImportance
(%)For
frequent purchasers
Part-worths for occasional-
never purchasers
AttributeImportance
(%)For occasional
to never purchasers
Source of Cattle No non-organic .8611 .4643 Up to 40% non -.8611 21.61 -.4643 14.97Use of Fish Feeds Allowed -1.2500 -.2857 Prohibited 1.2500 27.15 .2857 16.44Use of Antibiotics Allowed -1.3750 -1.3214 Prohibited 1.3750 30.76 1.3214 31.03Prices $1.49/lb .7222 .9524 $2.49/lb -.0417 20.48 .3452 37.56 $3.49/lb -.6806 -1.2976Source: Author’s Calculation
The differences in preferences between consumers who purchase organics
frequently and those who seldom purchase organic food are apparent when the attribute
importance scores are examined. Respondents who purchase organics frequently are
most concerned with antibiotic use. Antibiotic use was followed closely by the use of
fish feeds followed by the source of cattle and the price. Price was the most important
attribute for those consumers who seldom purchase organics, followed by antibiotic use.
The use of fish feeds as a dietary supplement and the source of cattle were considered
fairly unimportant. Figures 8.14 and 8.15 provide a graphic illustration of these
preferences.
225
21.61
27.15
30.76
20.48
0
5
10
15
20
25
30
35
Source ofCattle
Fish Feeds Antibiotics Price
Impo
rtanc
e Sc
ore
Figure 8.14 Relative importance of beef attributes by frequent purchasers of organic goods (US) (n=18)
14.97 16.44
31.03
37.56
0
5
10
15
20
25
30
35
40
Source ofCattle
Fish Feeds Antibiotics Price
Impo
rtanc
e Sc
ore
Figure 8.15 Relative importance of beef attributes by occasional purchasers of organic goods (US) (n=7)
226
The rank order of the preferences between Canadian and US consumers of beef
are identical, however, this does not imply that they are statistically the same. Further
analysis of the results must be done in order to determine the statistical differences
between the two populations (see Section 8.2.2.5).
8.2.2.3 United Kingdom
In the UK, fifty consumers completed a beef survey, with 48 of the surveys
being useable. Consumers in the UK appear to have different ideas about what was of
most importance during the production of organic beef than Canadian and American
consumers. For a complete list of the utility coefficients see Table 6 in Appendix B. For
respondents in the UK, price was the most important attribute. Price was followed by
antibiotic use, fish feeds and the source of the cattle. Figure 8.16 illustrates these
preferences. The Pearson’s R coefficient for UK consumers of beef is equal to .987,
indicating the model had a high degree of predictive accuracy. The Kendall’s tau values
are calculated at .909 for the profiles and 1.00 for the hold-outs.
227
Figure 8.16 Relative importance of beef attributes (UK) (n=48)
To determine the trade-offs implicitly made by consumers in evaluating the
product profiles, the calculated utility for various products are compared. Table 8.17
provides the estimated utility value for the most preferred product, while Table 8.18
provides the utility calculations for the remaining profiles.
Table 8.18 - Total utility for the most preferred attribute combination
(Profile 5)
Most Preferred Combination Part-WorthSource of Organic Cattle No non-organic .5182Fish Feeds Prohibited .6641Antibiotics Prohibited .7474Price Low .6632
Constant 4.6337Total Utility 7.2266
Source: Author’s Calculation
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Table 8.19 - Total utility calculations for remaining 7 profiles (UK Beef)
Utility Calculations for 7 Profiles rated by RespondentsProfile 8 Part-WorthSource of Cattle Up to 40% non -.5182Fish Feeds Prohibited .6641Antibiotics Prohibited .7474Price Low .6632
Constant 4.6337Total Utility 6.1902
Profile 6Source of Cattle No non-organic .5182Fish Feeds Prohibited .6641Antibiotics Allowed -.7474Price Medium .0226
Constant 4.6337Total Utility 5.0912
Profile 4Source of Cattle No non-organic .5182Fish Feeds Allowed -.6641Antibiotics Prohibited .7474Price High -.6858
Constant 4.6337Total Utility 4.5494
Profile 3Source of Cattle No non-organic .5182Fish Feeds Allowed -.6641Antibiotics Allowed -.7474Price Low .6632
Constant 4.6337Total Utility 4.4036
Profile7Source of Cattle Up to 40% non -5182Fish Feeds Allowed -.6641Antibiotics Prohibited .7474Price Medium .0226
Constant 4.6337Total Utility 4.2214
Profile 2Source of Cattle Up to 40% non -.5182Fish Feeds Allowed -.6641Antibiotics Allowed -.7474Price Low .6632
Constant 4.6337Total Utility 3.3672
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Profile 1Source of Cattle Up to 40% non -.5182Fish Feeds Prohibited .6641Antibiotics Allowed -.7474Price High -.6858
Constant 4.6337Total Utility 3.3464
Source: Author’s Calculation
Even though, on average, price is the most important attribute, there are still
cases when a higher price will be accepted in return for a stricter standard. In Profile 3,
antibiotics are allowed and the price is set at a low level. This product rates lower than
Profile 4, which prohibits antibiotics but has a higher price. This is due to the fact that
the negative incremental utility from the increased price is outweighed by the positive
utility increase from the stricter standards for antibiotic use.
There are cases where consumers are not willing to pay more to have a stricter
standard. In Profile 7, the organic beef product can be produced from cattle that were
only raised organically once they were weaned, and the price level is set at medium.
Compare this with Profile 4, which has a high price and only allows cows that were
raised organically prior to birth to be called “organic”. Profile 7 rates lower, even with
the lower price. However, if a hypothetical product is introduced, which only required
that cows be raised organically once weaned, and is priced at a low level, it would
generate a higher predicted utility than both Profile 7 and Profile 4. Its estimated utility
value is equal to: (-.5182) + (-.6641) + (.7474) + (.6632) + (4.6337) = 4.862. Therefore,
it seems that consumers are willing to accept a higher price provided they obtain a
higher standard. However, they are not willing to pass up a low price even with a lower
standard with regard to cattle sourcing.
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The final section of this analysis will examine the differences between
consumers who purchase organic products frequently and those who seldom purchase
organic food. In the UK beef survey, there were 23 consumers who claimed to purchase
organics whenever possible or frequently and 27 who claimed to purchase them never,
seldom or occasionally. Figures 8.18 and 8.19 provide a graphic depiction of the relative
importance of the attributes by frequency of organic purchases. The frequent purchasers
valued the attributes in the following order: price, source of cattle, antibiotic use and the
use of fish feeds. The infrequent purchasers of organic goods have the following
preferences: price, antibiotic use, fish feeds and source of cattle. Interestingly, the
consumers in the UK appear to be more concerned about price than any of the other
attributes. This contrasts with consumers in North America who do not appear to be as
influenced by price as much as they are by the other attributes. This may be a reflection
of the income differences between the two samples, as those consumers with lower
incomes may be more price sensitive. Table 8.20 provides the calculated utility
coefficients for the two groups.
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Table 8.20 - Utility values for frequent and occasional consumers of organics (UK Beef)
Attributes and levels Part-worthsFor Frequent Purchasers
AttributeImportance
(%)For
frequent purchasers
Part-worths for occasional-
never purchasers
AttributeImportance
(%)For occasional
to never purchasers
Source of Cattle No non-organic .8043 .2550 Up to 40% non -.8043 27.69 -.2550 13.11Use of Fish Feeds Allowed -.7609 -.5750 Prohibited .7609 18.63 .5750 23.00Use of Antibiotics Allowed -.7826 -.7150 Prohibited .7826 25.05 .7150 29.32Prices £5.15/kg .7246 .6067 £7.15/kg -.1014 28.63 .1367 34.56 £9.15/kg -.6232 -.7433Source: Author’s Calculation
27.69
18.63
25.05
28.63
0
5
10
15
20
25
30
35
Source ofCattle
Fish Feeds Antibiotics Price
Impo
rtanc
e Sc
ore
Figure 8.18 Relative importance of beef attributes by frequent purchasers of organic goods (UK) (n= 23)
232
13.11
23
29.32
34.56
0
5
10
15
20
25
30
35
40
Source ofCattle
Fish Feeds Antibiotics Price
Impo
rtanc
e Sc
ore
Figure 8.19 Relative importance of beef attributes by occasional purchasers of organic goods (UK) (n= 25)
The next section of this chapter examines the statistical differences between the
attribute ratings for the beef survey. If preferences for organic beef standards are
statistically different in each country, harmonization may be a difficult option to pursue,
as consumers will reject standards that are not in line with their preferences. However, if
they prove not to be statistically different, harmonization should be easier to achieve.
8.2.2.4 Consumer Preferences vs. National Standards (Beef)
The national standards of the EU, Canada and the US, were represented by
specific profiles in the survey but were not identified as such to survey respondents. The
Canadian voluntary standard for beef production is described in Profile 4 – it requires
calves to be raised organically from the last three months of gestation, it allows the use
233
of fish feeds and it prohibits the use of antibiotics even for medicinal purposes.
Canadians rated this product 4th in the conjoint analysis. This product is initially priced
at the high price level; if the utility value for the product is calculated at the medium
price level, it moves up to third place (5.0844), and if the price is decreased even further
to low, it remains in third place (5.8063). Canadian consumers ranked the profile
describing the US standard for organic beef production first overall, while the EU
standard was 8th. Ironically, the US standards match the stated preferences of Canadian
consumers more closely than the EU standards despite the fact that many shoppers
believed the EU to have the strictest standard!
Overall, the US standard for organic beef production (Profile 5) was rated
number one by consumers in all three countries. The profile is originally set at the low
price level. If the utility is calculated at the medium price level, it equals 7.43, leaving it
in first place. However, if the price is increased to the high level, the profile drops to
second (6.51). American consumers are similar to Canadians in that they indicate in an
earlier survey question that they regard the EU’s standards as superior; however, in fact
they also ranked the product produced under the EU standards in 8th place.
The EU’s standards can be found in Profile 2. The EU standard allows up to
40% of calves to be raised organically once weaned, it allows the use of fish feeds, and
cattle ranchers may use antibiotics if homeopathic or natural treatments do not work up
to three times in one year without the cow losing its organic status. EU consumers
ranked the product produced using these standards 7th overall. If the price of this product
is changed from low to medium, it drops to eighth spot (2.7266). EU consumers rated
the Canadian standard 4th overall. The gap between EU consumer preferences and the
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EU standard is interesting. However, it is important to note that these standards are
minimum requirements and individual certification agencies can choose to implement
tighter regulations.
The US organic beef industry seems to understand what consumers are looking
for in organic beef. The EU standard does not match the preferences of those consumers
interviewed at all. Most consumers seem to think that the EU had the strictest standards
for organic production; however, it would appear that this is not the case. The next
section of the chapter will determine whether the differences in preferences between
sample populations are statistically significant.
8.2.2.5 Statistical Differences between Consumers in Different Countries (Beef)
The statistical differences between consumer preferences for organic beef are
tested in an identical fashion to those for organic salad. Using the Tukey test, it is
possible to compare the means of the three samples across all product attributes. Table
8.21 provides the Tukey confidence limits for the tested means.
235
Table 8.21 - Country comparisons for the beef attributes
Attribute/Country Comparison
Confidence Intervals
Source of CattleCAN vs. US -13.26CAN vs. UK -10.84US vs. UK -14.41 Use of Fish FeedsCAN vs. USCAN vs. UKUS vs. UKAntibiotic UseCAN vs. USCAN vs. UKUS vs. UKPriceCAN vs. USCAN vs. UKUS vs. UK
236
In every case, the confidence limits include the value zero. This signifies that the
average importance scores for each country are not statistically different. In other words,
consumers have similar preferences in all three countries. The implications of these
findings are discussed in the next section of the chapter.
8.3 Implications
The thesis proposed that harmonization of organic standards may not be
beneficial to society. The trade model that was developed is based on the idea that
consumers in different countries have different preferences for organic standards, and
that these differences may inhibit harmonization. However, the results from the conjoint
study conducted in the US, Canada and the UK, indicate that the differences between
consumer preferences are not statistically significant and hence, consumers in the three
countries have similar predilections for organic standards.
These findings suggest that harmonization may be beneficial to the organic
industry. However, while consumer preferences for standards may be similar, consumer
perceptions of imported organics may also influence the effects of harmonization. Many
consumers in both Canada and the UK stated that they did not trust organics from the
US, as the perception was that the government was too involved in the organic industry,
even though the US standard for beef was preferred when utility values were calculated.
This mistrust may inhibit the establishment of harmonized standards. Education
programs designed to provide greater understanding of the US certification system to
consumers in importing countries may help overcome these perceptions.
237
8.4 Conclusion
Consumers in Canada, the UK and the US do not appear to have statistically
different preferences for organic standards. Using a Tukey test, the mean relative
importance of each evaluated attribute are compared across all three countries. The
results of this test conclude that there are no statistical differences between the means.
This is an important finding as it implies that harmonization of organic standards is
attainable. Consumers in Canada, the UK and the US differ in terms of their preference
order and in terms of some of the trade-offs they were willing to make. However, these
differences are not statistically significant and therefore, preferences should not inhibit
the harmonization of organic standards.
238
Chapter 9
Summary and Conclusions
9.1 Introduction
Chapter 9 summarizes the findings of the research in this thesis. It provides a
brief explanation of the motivations for the research. This is followed by a
description of the research findings and the implications for the global organic
industry and the development of the industry in Canada. The research limitations are
also discussed, along with suggestions for further areas of study.
The creation of organic standards is central to the development of the organic
industry. Due to the credence nature of organic food – consumers cannot
differentiate between organic and conventional foods even after consumption –
certification standards are established to convey information to consumers. Without
certification standards, there would be no way to segregate the organic products and
conventional counterparts in the market. Organic standards, however, can also act as
a barrier to trade. Due to agronomic, cultural and economic differences, organic
standards have developed differently around the world. When organic production
was primarily for domestic consumption this was not an issue, however with the
increased capacity for the profitable international movements of organic products,
these differences in standards can act to inhibit international transactions.
239
Currently, countries are conducting equivalency negotiations to eliminate the
lengthy and costly procedures that must be followed if an firm wishes to export into a
foreign market. The EU allows the free flow of organic goods from countries with
which it has established equivalency; however, the remainder of the exporters must have
their organic practices approved with each shipment exported. In the near future this
option will no longer be available to exporters, as the EU has mandated that all countries
who wish to import organic goods into the EU must have established equivalency by
December 31st, 2005 or they will be denied access. This has caused countries without
national standards to speed up the standard development process. Presently, Canada has
a voluntary standard and is working to establish a mandatory standard. Even as this
standard is being developed, equivalency negotiations with the EU and other countries
are being pursued.
To avoid the costs and effort associated with negotiating equivalency, advocates
for the organic industry are calling for the international harmonization of organic
standards. Harmonization would require all countries to follow one set of agreed upon
standards. While harmonization has been suggested as a way to solve the trade problems
that have arisen because of differing standards, there has been little economic analysis
of its impacts on global welfare. It is widely believed that if consumers do not accept
imported organic products then there will be no benefits to harmonization.
This thesis proposes that harmonization of organic standards may not be
beneficial to world welfare. The construction of a trade model provides further insight
into this research problem. In addition, an analysis of consumer preferences for different
organic standards determines whether consumer preferences do in fact differ in some
240
major markets for organic products, or whether their preferences are similar and will not
inhibit the harmonization process.
9.2 Summary of Research Findings
This thesis is comprised of two research components. The first to be examined is
a partial equilibrium trade model, which determines supply and demand shifts that occur
when equivalency negotiations and harmonization are pursued. The second research
component uses a conjoint analysis experiment to determine consumer preferences for
different organic standards. The results of this analysis are then compared for
statistically significant differences.
9.2.1 The Theoretical Trade Model
A partial equilibrium model was developed to explore the welfare effects of
autarky, equivalency negotiations and harmonization. In the case of equivalency
negotiations, two scenarios were examined: when variations in standards are slight and
when variations in standards are great. When equivalency negotiations are compared
with autarky, the resulting welfare changes are ambiguous and require further empirical
investigation.
When harmonizing, a standard must be chosen as the object of harmonization. In
this two-country trade model there were three obvious choices, to harmonize to the
lenient standard, to harmonize to the strict standard and to harmonize to the median
standard. It is important to note that these choices do not reflect the possible differences
in political strength between the countries and that realistically this will impact the
choice of standard placement. Again, the welfare effects are ambiguous, with the
241
changes depending on the relative sizes of the demand and supply shifts. To overcome
this ambiguity, a simulation model was created.
The trade model simulation uses a normally distributed population to construct
demand curves for organic goods produced under specific standards. The individual
demand curves are aggregated to form a market demand curve. The optimal standard is
located at the mean of the normal distribution (where the greatest number of consumers
is satisfied). As the standard moves away from the optimal standard, aggregate demand
decreases. Simulating changes in the demand and supply curves, welfare results were
calculated for the various scenarios. As expected, the further standards are apart the less
likely there is to be a positive effect on welfare and the more difficult it is likely to be to
harmonize. Generally, it was found that harmonization to the lenient standard was the
preferred choice, however, depending on the initial placement of the standards, autarky
may be preferred over any of the harmonization claims. This result is supported by
Hansson (1990) who also found that harmonization to the lenient standard is the optimal
harmonization choice. Equivalency negotiations followed autarky and harmonization to
the lenient standard, while harmonization to the median and the stricter standards are
always welfare decreasing. These results suggest that harmonization is only preferred to
equivalency negotiations if the countries harmonize to the more lenient standard, and
even then, autarky may yield the highest welfare. Harmonization to the median and
stricter standard never results in improved global welfare under the assumptions that
underlie the simulation exercise.
While it appears as though harmonization will only be beneficial in some
circumstances, the results are dependent on certain assumptions regarding consumer
242
preferences. If consumers do not have strong preferences for organic standards then the
assumptions made regarding shifts in demand may not hold. Instead, harmonization may
not cause any change in demand. Further research into these preferences will provide
more knowledge of the shifts in demand that were assumed in the theoretical trade
model.
9.2.2 Consumer Preference Analysis
To gather information on consumer preferences for organic standards, a survey
was conducted in three countries – the UK, the US and Canada. The survey asked
consumers to state the frequency of their organic purchases, their motivations for
purchasing organic foods, some questions regarding their socio-economic information,
and questions to test their knowledge of organic production. Consumers were also asked
to rate one of two products – organic bagged salad and organic ground beef – based on
their organic production standards. The products were chosen because of their
availability in all three markets. The ratings were then evaluated using conjoint analysis.
The conjoint experiment provides an importance rating for each attribute tested, a utility
coefficient for the attribute levels and statistics testing the goodness of fit. At the end of
each analysis is a summary of all individual respondents. The summary is used to
compare consumer preferences in different countries.
The Tukey test allows for multiple comparisons across population samples. In
this thesis it is used to compare the mean importance ratings provided from each
country. Using the Tukey method, these means are tested to determine if they are
statistically different. Confidence limits are generated for each comparison. If the limit
243
includes the value zero, then the differences in means are not statistically significant.
The results of this test indicate that the responses are not statistically different and
therefore consumers in different countries do appear to have similar preferences for
organic standards.
9.3 Implications for the Organic Industry
The results from the trade simulation suggest that harmonization may not be
beneficial to global society. If harmonization is pursued, the harmonized standard
should reflect the most lenient standard. Otherwise there will be losses to global welfare.
This result assumes that consumers actually have preferences that are matched by their
domestic standard. The results from the conjoint analysis suggest that consumer
preferences (at least in those countries studied) are not statistically different and are not
always met by the national standards. These results indicate that strong consumer
preferences should not inhibit the harmonization process.
While consumer preferences may not inhibit the harmonization process,
consumer perceptions might. Even if harmonization is achieved, consumer perceptions
regarding the certification process and regulation of organic standards in foreign
countries may diminish the gains that harmonization would bring. If consumers in
importing countries do not trust the claims made by organic exporters then there will be
no gains from harmonization.
What do these results imply for the organic industry? It appears that
harmonization is a feasible solution to the trade barriers created by organic standards.
This being said, it will be extremely difficult to negotiate a harmonized standard. While
trade theory suggests that harmonization to the lenient standard is the only way to
244
increase global welfare, convincing organic consumers in countries with stricter
standards that this will not diminish their utility may be difficult. In addition, bargaining
power between nations is not equal and will influence the negotiation process. To
demonstrate, consider the situation in Canada: the standard development process has
taken one and a half years so far and the national regulated standard is yet to be
completed. The lengthy process is due to the vast number of organizations and
individuals who wish to have their principles represented in the standards and this is
only at a national level. At the international level there would be even more parties with
vested interests in the development (or non-development) of a unified standard.
However, there has been progress made towards the development of an international
standard. IFOAM, an international organic body, has established a set of basic standards
and an accreditation body. IFOAM, the UN Conference on Trade and Development and
the UN Food and Agriculture Organization have joined forces to create an International
Task Force of Harmonization and Equivalence in Organic Agriculture. The goal of this
task force is to assess the impact that variances in organic programs may have on trade
in organic agricultural products, examine the current mechanisms for trade, i.e.
equivalence, and determine if any harmonization has already occurred (International
Task Force 2003). This is a crucial first step in the development of a harmonized
industry.
What do these results signify for Canada? If harmonization is an optimal strategy
to enhance world welfare, perhaps Canada should focus its energies on encouraging
other nations to pursue a harmonized standard rather than trying to establish its own
national standard. Or perhaps Canada should adopt an already established standard such
245
as IFOAM’s basic standards, the EU’s Regulations or the US NOP. Not only would this
reduce the costs of developing a standard, but it would also bring the international
community one step closer to achieving harmonization. Some would argue that
adopting the standards of another country would result in a loss of autonomy; however,
Canada could also be seen as having tremendous foresight into the future of the global
organic industry. If in the future it appears as though Canadian organic principles and
those of the organization it has joined with have diverged, there is nothing to deter
Canadians from developing their own standard.
9.4 Limitations of the Research
A number of potential limitations to the research should be acknowledged.
During the survey process some respondents completed the survey with the assistance of
an interviewer while others completed it independently. Those consumers who
completed the survey independently may not have had a full understanding of the
survey, which may have led to unexpected responses. In addition, Hair et al. (1992)
suggest that ranking is a preferred method to rating as it is easier for respondents to
complete and provides more flexibility during the estimation of composition rules.
The choice of standards may also have confused respondents. Tobacco sprays
and fish feeds did not appear to be well known additives, as they often required extra
explanations. This lack of knowledge may have caused consumers to focus on these
attributes more than other attributes thus skewing the results. Nevertheless, efforts were
made to describe these attributes simply and clearly in the survey.
A clear limitation of the study was the limited number of survey locations. It
would have been useful to gather additional surveys from another city in the US and in
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the UK, however, time and cost restrictions prohibited this option. In addition, the fact
that consumers in Vancouver were only surveyed at organic stores and not at general
supermarket location may have influenced the Canadian results, although the wide range
of survey locations in Saskatoon should provide some balance.
The limited data on organic production and consumption made it difficult to
estimate demand and supply elasticities for organic production in Canada. Therefore the
simulation model is based purely on hypothetical demand and supply curves. This is a
limitation of the research, as it is impossible to know whether the actual supply and
demand curves are more or less elastic than the hypothetical model. These differences
could alter the resulting welfare changes.
9.5 Areas for Further Study
There are several areas of this research that could be advanced by further study.
Further research into other examples of harmonization of processing and production
methods could provide useful information on the positive and negative effects of the
harmonization process and the post-harmonization outcomes. A detailed exploration of
the creation of the EU minimum regulations for organic production could be used as a
model for future harmonization goals.
Additional research into consumer perceptions of imported organic goods could
be used to determine consumer response towards harmonization. More knowledge of the
consumers concerns regarding imports could highlight areas where the dissemination of
information could improve consumer perceptions of imported organics. This
information could also be used to establish education programs for consumers in
importing countries. The education programs could inform consumers of the organic
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practices and certification processes in exporting countries and may address specific
consumer concerns.
More knowledge of the preferences of Canadian consumers and their thoughts
on adopting organic regulations that are not regulated by the Canadian government may
indicate that the development of a Canadian national standard is not necessary. Instead
the adoption of foreign organic standards may appeal to Canadians. Many respondents
in this study stated that they felt that the EU had the strictest standards; however the
consumers wished to buy local organic food rather than imported organics from the EU.
Adopting the EU’s standards would meet Canadian perceptions of strong organic
regulations; meanwhile local organic producers could continue to supply the domestic
market.
Conversely, the US standard for organic beef and salad was actually preferred by
Canadians over the EU standard (as seen in the conjoint results). If Canadian consumers
were made more aware of the US standards and certification system, perhaps Canadians
would change their view of US organics and feel more comfortable with US-certified
organics. As the US is Canada’s largest trading partner, the adoption of the NOP may
make more economic sense.
A documented list of the different organic standards around the world and the
major differences between them would help contribute to harmonization research.
Understanding the differences in standards would provide greater knowledge of the
feasibility of harmonization.
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9.6 Conclusion
Global demand for organic products is increasing; however trade in organics is
being inhibited by differing national standards. Harmonization of organic standards has
been suggested as a means to overcome these trade barriers.
Harmonization may be beneficial to global society if the standard is chosen
appropriately. It appears that strong consumer preferences for domestic organic
standards will not hinder the harmonization process, as the research conducted as part of
this thesis has shown that there are no statistical differences between consumer
preferences in different countries. This indicates that harmonization should not be
inhibited by strong and diverging consumer preferences for what is considered more or
less “organic” in different countries.
This study has taken a first step towards understanding the economic
implications of international harmonization of organic standards. Further research into
consumer perspectives of imported organics, differences in current standards and
consumer willingness to adopt the national standards of other countries would provide
more insights into the topic of harmonization.
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APPENDIX A
Code #_____
Organic Consumer Research
Dear Potential Participant:
We are inviting you to participate in a study to gather more information regarding consumer attitudes towards organic standards. The research is being conducted through the Department of Agricultural Economics at the University of Saskatchewan under the supervision of Dr. William A. Kerr. The purpose of this study is to analyze the economic impacts of harmonizing organic standards internationally. The survey itself will be used to gather information on consumer preferences regarding organic standards and their knowledge of organics. The data gathered will be aggregated in order to analyze specific market segments and to protect the anonymity of participants. The results of the study may be submitted to journals, used in presentations to the academic community and industry and used in M.Sc. thesis research. You will not be asked to identify yourself on the survey therefore guaranteeing confidentiality. You must be 18 years of age or older to participate in the study.
The survey is composed of three parts. The survey will be conducted on the spot and will take approximately 10 minutes. First, you will be given a series of sets of organic standards and asked to rate them based on your preferences. Second, you will be asked several questions that will assist us in determining consumer knowledge of the organic industry. Finally, some socio-economic questions will be asked. These questions will enable us to segment the market into groups based on income, education and gender.
There are no foreseeable risks to being involved in this project. The results will be used in aggregate rather than at the individual level. The results of the survey will be held in the office of Dr. Kerr at the University of Saskatchewan in Canada for at least five years after the study is complete.
If at any time you wish to withdraw your responses from the survey, please contact one of the researchers within seven (7) days and cite the code number located at the top of this cover letter. Your completed survey will then be withdrawn from the study and destroyed.
Submission of a completed survey will indicate your consent to participate. This also implies that the researchers may use the data gathered as is described above.
This research project was reviewed and approved by the University of Saskatchewan Advisory Committee on Ethics in Behavioural Research on (date to be added).
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If, after you have completed the survey you have any questions or concerns about the study or your rights as a participant, please contact one of the following (out of town participants may call collect):
Dr. William Kerr, Van Vliet Professor, Dept. of Agricultural Economics (306) 966-4022Erin Sawyer, M.Sc. Student, Dept. of Agricultural Economics (306) 966-4047Office of Research Services, University of Saskatchewan, (306) 966-2084
If you would like to be notified of the results or wish to receive a copy of them, please contact Dr. William Kerr.
Sincerely,
Dr. William A. KerrVan Vliet ProfessorDepartment of Agricultural EconomicsUniversity of Saskatchewan
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University of SaskatchewanDepartment of Agricultural Economics
CONFIDENTIAL Code #____
Location:________________Date:_________Time:________
This purpose of this survey is to gather information regarding consumer attitudes towards organic standards. The first part of the survey will ask questions about your familiarity with organic foods. This will be followed by 10 descriptions of organic ground beef produced under different organic standards. Finally, the survey will end with some questions on your knowledge of the organic industry.
1. How often does your household purchase organic food products? Please circle the appropriate response.
a. Neverb. Seldomc. Occasionallyd. Frequentlye. Whenever possible
2. If you have purchased organics at some time, please go to (a), if you have never purchased organics proceed to (b).
(a) If you’ve purchased organics what were your reasons? (Please circle all responses that apply)
a. Conveniently packagedb. Health concernsc. Environmental concernsd. Tastee. Other __________________
(b) If you’ve never purchased organics, what were your reasons? (Please circle all responses that apply)
a. Priceb. Availabilityc. Appearanced. Other___________________
The following pages will present you with some descriptions of organic ground beef produced under different organic standards.
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You will be asked to rate the different descriptions on a scale from 1 (least preferred) to 10 (most preferred). Below is a list of all the standard choices, please read the description and feel free to ask questions if any point needs clarification.
Description of Organic Beef Standard Attributes
Attribute: Standards:____________________ Sources of Cattle for Organic Meat 1. No non-organic cattle (must
be raised organically from last three months of pregnancy)(written as no non-organic cattle in profiles)2. Up to 40% of cattle can come from non-organically raised parents (written as up to 40% non-organic in profiles)
Use of Fish-based Feeds 1. Fish and their products are permitted as animal feeds2. Fish are not considered organic and are prohibited as animal feeds
Anitibiotics 1. Prohibited2. Allowed when natural or homeopathic treatments do not work
Prices 1. 7.25/kg2. 9.25/kg3. 11.25/kg
*The prices are a realistic reflection of prices found in supermarkets and specialty stores.
EXAMPLE:The highlighted words in the table represent a specific concern that consumers may have and the right hand side represents the standard that this particular product was produced under. Read the description of the product and then rate it based on your personal preferences on a scale from 1-10 (least preferred to most preferred).
EXAMPLE
Source: Up to 40% non-organicFish feeds: ProhibitedAntibiotics: Allowed Price: $9.25/kg
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Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
There are 10 possible standard combinations. Please read the choices thoroughly and circle the number that corresponds to your preference level.
PLEASE TRY TO USE THE WHOLE RANGE OF THE SCALE WHEN RATING THESE CHOICES.
Organic Ground Beef:
Profile 1
Source: Up to 40% non-organicFish feeds: ProhibitedAntibiotics: Allowed Price: $11.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 2
Source: Up to 40% non-organicFish feeds: AllowedAntibiotics: Allowed Price: $7.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 3
Source: No non-organic cattleFish feeds: AllowedAntibiotics: AllowedPrice: $7.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 4
Source: No non-organic cattleFish feeds: AllowedAntibiotics: ProhibitedPrice: $11.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 5
Source: No non-organic cattleFish feeds: ProhibitedAntibiotics: ProhibitedPrice: $7.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 6
Source: No non-organic cattleFish feeds: ProhibitedAntibiotics: AllowedPrice: $9.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 7
Source: Up to 40% non-organic
Profile 8
Source: Up to 40% non-organic
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Fish feeds: AllowedAntibiotics: ProhibitedPrice: $9.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Fish feeds: ProhibitedAntibiotics: ProhibitedPrice: $7.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 9
Source: No non-organic cattleFish feeds: ProhibitedAntibiotics: AllowedPrice: $7.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 10
Source: No non-organic cattleFish feeds: AllowedAntibiotics: ProhibitedPrice: $7.25/kg
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
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The following section of the survey will ask some questions regarding the organic industry within Canada and as well as some socio-economic questions.
1. Does Canada have a national organic standard? (Please circle your response)
a. Yes b. No c. Don’t know
If you answered Yes to Question 1, proceed with Question 2, otherwise go to Question 3.
2. From the scenarios described on pages 3-6 can you identify the Canadian standard?
a. Yes, Scenario____ b. No
3. If you were faced with three packages of organic beef, one from the US, one from the EU and one from Canada, which would you prefer? And why?
a. EU b. CAN c. US
Why?___________________________________________________________________________________________________________________
4. Gender: □ male □ female
5. Are you the primary shopper in your household? (Please circle the correct response)
a. Yes b. No
6. Please circle your appropriate age group:a. Under 20 yearsb. 20-29 yearsc. 30-39 yearsd. 40-49 yearse. 50-59 yearsf. over 60
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7. Household Income Level Before Taxes (per year): please circle the appropriate letter.
a. under $20,000b. $20,000-39,000c. $40,000-59,000d. $60,000-79,000e. $80,000-99,000f. $100,000-119,000g. $120,000-139,000h. $140,000-169,000i. $170,000-199,000j. over $200,000
8. Highest level of education obtained (circle one):a. Less than grade 9b. Grade 9 to 13c. High school graduated. Technical schoole. College diplomaf. Bachelor’s degreeg. Master’s degreeh. Doctorate degree
9. The following statements make claims regarding the properties of organic food. Please indicate whether you agree or disagree with each statement.
a. Organic food is not genetically modified. □ agree □ disagree □ don’t know
b. Organic food is not irradiated. □ agree □ disagree □ don’t know
c. Organic food is locally grown.□ agree □ disagree □ don’t know
d. Organic meat is produced in an animal welfare friendly manner.□ agree □ disagree □ don’t know
e. Food labeled “natural” is organic. □ agree □ disagree □ don’t know
10.The following statements make claims regarding certified organic and organic food. Please indicate whether you agree or disagree with each statement.
a. “Certified organic” products are certified by an independent third party (i.e. certification agency).
□ agree □ disagree □ don’t knowb. All organic certification agencies have been accredited by a
national government program.□ agree □ disagree □ don’t know
c. All organic food is certified.□ agree □ disagree □ don’t know
d. Certified organic food is superior to organic food.
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□ agree □ disagree □ don’t know
Thank you for your participation! Please feel free to make any comments on organic food or this survey in the space provided.
University of SaskatchewanDepartment of Agricultural Economics
CONFIDENTIAL Code #____
Location:________________Date:_________Time:________
This purpose of this survey is to gather information regarding consumer attitudes towards organic standards. The first part of the survey will ask questions about your familiarity with organic foods. This will be followed by 10 descriptions of organic salad mix produced under different organic standards. Finally, the survey will end with some questions on your knowledge of the organic industry.
3. How often does your household purchase organic food products? Please circle the appropriate response.
a. Neverb. Seldomc. Occasionallyd. Frequentlye. Whenever possible
4. If you have purchased organics at some time, please go to (a), if you have never purchased organics proceed to (b).
(a) If you’ve purchased organics what were your reasons? (Please circle all responses that apply)
a. Conveniently packagedb. Health concernsc. Environmental concernsd. Tastee. Other __________________
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(b) If you’ve never purchased organics, what were your reasons? (Please circle all responses that apply)
e. Pricef. Availabilityg. Appearanceh. Other___________________
The following pages will present you with some descriptions of organic salad mix produced under different organic standards. You will be asked to rate the different descriptions on a scale from 1 (least preferred) to 10 (most preferred). Below is a list of all the standard choices, please read the attributes carefully and feel free to ask questions if any point needs clarification.
Attribute: Level:
Buffer Zones to Prevent Substance Drift 1. Sufficient to preventOnto Organic Fields unintended
contamination2. No requirements
Use of Tobacco Sprays as Insect Controls 1. Allowed2. Prohibited
Labelling 1. Word ‘organic’ allowed in the ingredient list of products containing less than 70% organic ingredients2. Word ‘organic’ allowed in the ingredient list of products containing between 70-95% organic ingredients
Prices 1. 2.25/200g2. 3.75/200g3. 5.25/200g
*These prices are a realistic reflection of prices found in supermarkets.
EXAMPLE: The highlighted words in the table represent a broad standard attribute and the right hand side represents the specific standard that this particular product was produced under. Read the description of the product and then rate it based on your personal preferences on a scale from 1-10 (least preferred to most preferred).
265
EXAMPLE
Buffer Zones: Sufficient in sizeTobacco Sprays: ProhibitedLabelling: <70%Price: $3.75/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
There are 10 possible standard combinations. Please read the choices thoroughly and circle the number that corresponds to your preference level.
PLEASE TRY TO USE THE WHOLE RANGE OF THE SCALE WHEN RATING THESE CHOICES.
Packaged salad mix
Profile 1
Buffer Zones: Sufficient in sizeTobacco Sprays: ProhibitedLabelling: <70%Price: $5.25/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 2
Buffer Zones: Sufficient in sizeTobacco Sprays: AllowedLabelling: <70%Price: $2.25/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 3
Buffer Zones: No requirementsTobacco Sprays: AllowedLabelling: <70%Price: $2.25/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 4
Buffer Zones: No requirementsTobacco Sprays: AllowedLabelling: 70-95%Price: $5.25/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 5
Buffer Zones: No requirementsTobacco Sprays: ProhibitedLabelling: 70-95%Price: $2.25/200g
Profile 6
Buffer Zones: No requirementsTobacco Sprays: ProhibitedLabelling: <70%Price: $3.75/200g
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Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 7
Buffer Zones: Sufficient in sizeTobacco Sprays: AllowedLabelling: 70-95%Price: $3.75/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 8
Buffer Zones: Sufficient in sizeTobacco Sprays: ProhibitedLabelling: 70-95%Price: $2.25/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 9
Buffer Zones: No requirementsTobacco Sprays: ProhibitedLabelling: <70%Price: $2.25/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
Profile 10
Buffer Zones: No requirementsTobacco Sprays: AllowedLabelling: 70-95%Price: $2.25/200g
Least Preferred Most Preferred 1 2 3 4 5 6 7 8 9 10
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The following section of the survey will ask some questions regarding the organic industry within Canada and as well as some socio-economic questions.
1. Does Canada have a national organic standard? (Please circle your response)
a. Yes b. No c. Don’t know
If you answered Yes to Question 1, proceed with Question 2, otherwise go to Question 3.
11.From the scenarios described on pages 3-6 can you identify the Canadian standard?
a. Yes, Scenario____ b. No
12.If you were faced with three packages of organic salad, one from the US, one from the EU and one from Canada, which would you prefer? And why?
a. EU b. CAN c. US
Why?___________________________________________________________________________________________________________________
13.Gender: □ male □ female
14.Are you the primary shopper in your household? (Please circle the correct response)
a. Yes b. No
15.Please circle your appropriate age group:a. Under 20 yearsb. 20-29 years
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c. 30-39 yearsd. 40-49 yearse. 50-59 yearsf. over 60
16.Household Income Level Before Taxes (per year): please circle the appropriate letter.
a. under $20,000b. $20,000-39,000c. $40,000-59,000d. $60,000-79,000e. $80,000-99,000f. $100,000-119,000g. $120,000-139,000h. $140,000-169,000i. $170,000-199,000j. over $200,000
17.Highest level of education obtained (circle one):a. Less than grade 9b. Grade 9 to 13c. High school graduated. Technical schoole. College diplomaf. Bachelor’s degreeg. Master’s degreeh. Doctorate degree
18.The following statements make claims regarding the properties of organic food. Please indicate whether you agree or disagree with each statement.
a. Organic food is not genetically modified. □ agree □ disagree □ don’t know
b. Organic food is not irradiated. □ agree □ disagree □ don’t know
c. Organic food is locally grown.□ agree □ disagree □ don’t know
d. Organic meat is produced in an animal welfare friendly manner.□ agree □ disagree □ don’t know
e. Food labeled “natural” is organic. □ agree □ disagree □ don’t know
19.The following statements make claims regarding certified organic and organic food. Please indicate whether you agree or disagree with each statement.
a. “Certified organic” products are certified by an independent third party (i.e. certification agency).
□ agree □ disagree □ don’t know
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b. All organic certification agencies have been accredited by a national government program.
□ agree □ disagree □ don’t knowc. All organic food is certified.
□ agree □ disagree □ don’t knowd. Certified organic food is superior to organic food.
□ agree □ disagree □ don’t know
Thank you for your participation! Please feel free to make any comments on organic food or this survey in the space provided.
APPENDIX B
Table B.1 - Canada Survey ResultsDoes Canada have a
national organic standard?
Percentage of Respondents
Yes 26%No 22%
Don’t know 52%From which country
would you prefer your organic product?
US 3%Canada 76%
EU 15%No preference 4%
Table B.2 - Knowledge of Canadian RespondentsStatement Agree Disagree Don’t
Know1 62.6% 19.5% 17.8%2 55.2% 8.6% 36.2%3 21.3% 70.7% 8.0%4 56.3% 17.2% 26.4%5 4.6% 86.8% 8.6%6 65.1% 8.0% 26.9%7 20.0% 26.3% 53.7%8 9.7% 69.1% 21.1%9 28.6% 32.6% 38.9%
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Table B.3 - US Survey ResultsDoes the US have a national organic standard?
Percentage of Respondents
Yes 29.4%No 39.2%
Don’t know 31.4%From which country would you prefer your organic product?
US 54.2%Canada 8.3%
EU 29.2%No preference 8.3%
Table B.4 - Knowledge of US RespondentsStatement Agree Disagree Don’t
Know1 74.0% 12.0% 14.0%2 26.0% 14.0% 22.0%3 6.0% 88.0% 6.0%4 34.7% 32.7% 32.7%5 2.0% 90.2% 7.8%6 47.1% 9.8% 43.1%7 7.8% 45.1% 47.1%8 11.8% 66.7% 21.5%9 19.6% 49.0% 31.4%
Table B.5 - UK Survey ResultsDoes the UK have a national organic standard?
Percentage of Respondents
Yes 58.6%No 12.1%
Don’t know 29.3%From which country
would you prefer your organic product?
US 0.0%Canada 1.0%
UK 93.1%
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No preference 5.9%
Table B.6 - Knowledge of UK RespondentsStatement Agree Disagree Don’t
Know1 76.2% 10.9% 12.9%2 67.3% 9.9% 22.8%3 24.8% 71.3% 4.0%4 71.0% 10.0% 19.0%5 3.0% 90.1% 6.9%6 58.4% 9.9% 31.7%7 31.7% 28.7% 39.6%8 20.8% 58.4% 20.8%9 31.7% 36.6% 31.7%
APPENDIX C
Table C.1 - Canadian Consumer Preferences for Organic Bagged Salad StandardsAttributes and levels Estimated
Part-worthsAttribute
Importance (%)Buffer Zones No requirements -.9944 Sufficient in size .9944 22.78Tobacco Sprays Allowed -1.1417 Prohibited 1.1417 28.65Labelling <70% -.8889 70-95% .8889 23.83Prices $2.25/200g .6704 $3.75/200g -.1380 24.75 $5.25/200g -.5324
Table C.2 - US Consumer Preferences for Organic Bagged Salad StandardsAttributes and levels Estimated
Part-worthsAttribute
Importance (%)Buffer Zones No requirements -1.1739 Sufficient in size 1.1739 27.07Tobacco Sprays Allowed -.6196 Prohibited .6196 22.66
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Labelling <70% -1.1848 70-95% 1.1848 27.33Prices $1.20/5oz .5652 $1.89/5oz .1304 22.94 $2.58/5oz -.6957
Table C.3 - UK Consumer Preferences for Organic Bagged Salad StandardsAttributes and levels Estimated
Part-worthsAttribute
Importance (%)Buffer Zones No requirements -1.0969 Sufficient in size 1.0969 30.57Tobacco Sprays Allowed -.6327 Prohibited .6327 20.48Labelling <70% -.8214 70-95% .8214 22.81Prices $1.20/5oz .4218 $1.89/5oz .1514 26.14 $2.58/5oz -.5731
Table C.4 - Canadian Consumer Preferences for Organic Beef StandardsAttributes and levels Estimated
Part-worthsAttribute
Importance (%)Source of Cattle No non-organic .5478 Up to 40% non -.5478 20.19Use of Fish Feeds Allowed -.9775 Prohibited .9775 24.74Use of Antibiotics Allowed -1.2388
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Prohibited 1.2388 29.83Prices $7.00/kg .6667 $9.00/kg -.0552 25.24 $11.00/kg -.6114
Table C.5 - US Consumer Preferences for Organic Beef StandardsAttributes and levels Estimated
Part-worthsAttribute
Importance (%)Source of Cattle No non-organic .7500 Up to 40% non -.7500 19.75Use of Fish Feeds Allowed -.9800 Prohibited .9800 24.15Use of Antibiotics Allowed -1.3600 Prohibited 1.3600 30.83Prices $1.49/lb .7867 $3.49/lb .0667 25.26 $5.49/lb -.8533
Table C.6 - UK Consumer Preferences for Organic Beef StandardsAttributes and levels Estimated
Part-worthsAttribute
Importance (%)Source of Cattle No non-organic .5182 Up to 40% non -.5182 20.10Use of Fish Feeds Allowed -.6641 Prohibited .6641 20.91Use of Antibiotics Allowed -.7474 Prohibited .7474 27.27
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Prices £5.15/kg .6632 £7.15/kg .0226 31.72 £9.15/kg -.6858
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