poverty — environment...
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E N V I R O N M E N T A L E C O N O M I C S S E R I E S
Poverty —EnvironmentIndicators
PAPER NO. 84
January 2002
Priya Shyamsundar
Papers in this series are not formal publications of the World Bank. They are circulated to encourage thought and discussion. The useand citation of this paper should take this into account. The views expressed are those of the authors and should not be attributed tothe World Bank. Copies are available from the Environment Department, The World Bank, Room MC-5-126.
Poverty —Environment Indicators
Priya Shyamsundar
January 2002
THE WORLD BANK ENVIRONMENT DEPARTMENT
iiiEnvironmental Economics Series
Contents
ACKNOWLEDGMENTS v
ABBREVIATIONS vii
Chapter 1Introduction 1
Chapter 2Environment and Health 5
Key Environment Health Indicators 6Disaggregating Health Indicators by Income or Wealth 6
Chapter 3Poverty and Natural Resources 13
Key Poverty-Natural Resource Indicators 13The Pressure-State-Poverty-Response-Framework 17Poverty-Environment Maps 20
Chapter 4Discussion and Conclusions 23
AppendixIndicators, Definitions, and Sources of Data 25
Notes 29
References 31
Boxes1. Features of good indicators 32. Disability Adjusted Life Years 83. Project level indicators — Volta Region Community Water and Sanitation Program 104. Monitoring time spent by women and children on collecting water 155. People’s dependence on forest products 156. Data for Monitoring Poverty in Africa —The Africa Region Household Survey Data Bank 207. Geo-referencing Household Survey Data 21
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Country Assistance Strategies and the Environment
Environment Department Papers
Figures1. Types of indicators 22. Burden of disease and environmental risks 83. Access to private and public water by quintile group 84. Access to sanitation facilities by quintile group 95. U5 mortality by quintile group 9
Tables1. Burden of disease from major environmental risks 52. Selected key environmental health indicators 73. Diarrhea and ARI prevalence as poverty-environment indicators 94. Public health expenditures accruing to the poorest and richest quintiles 105. A sample of poverty-natural resource indicators that affect income, security, and vulnerability
of poor people in poor countries 146. Deforestation and income impacts on the poor — Indicators within the Pressure-State-Poverty-
Response framework 187. Soil fertility and income impacts on the poor — Indicators within the Pressure-State-Poverty-
Response framework 198. Environmental health indicators, some definitions and data sources 259. Poverty and natural resource indicators, some definitions and data sources 26
vEnvironmental Economics Series
Acknowledgments
The author would like to thank Fadi Doumanifor his assistance on health indicators, JuliaBucknall, Lynn Brown, and colleagues at WorldBank Institute courses for their helpfulsuggestions, and Paul Steele and colleaguesfrom the Department for International
Development, U.K. for their extensivecomments. Thanks are also due to theGovernment of Norway for supporting thiseffort. Any mistakes are the author’s alone andshould not be attributed to the World Bank or tothe reviewers.
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Abbreviations
ARI Acute respiratory infectionsCRI Chronic respiratory infectionsDALY Disability-adjusted life yearsDHS Demographic and health surveysEME Established market economiesFSE Former socialist economiesLAC Latin America and the CaribbeanLDC Less developed countryLSMS Living standards measurement surveysMNA Middle East and North AfricaPRSP Poverty reduction strategy paperSSA Sub-Saharan AfricaWDI World Development Indicators
1Environmental Economics Series
Introduction
1 Introduction
Indicators are an important tool for designingand evaluating poverty reduction strategies,projects, and outcomes. They are useful formonitoring changes and trends over time, theyprovide a means for comparing progress acrossdifferent countries and are needed forevaluating the results of projects. Withoutindicators, well-developed strategies andprograms can be rendered meaningless.Accordingly, this paper seeks to identifydifferent ways in which indicators can be usedto understand poverty-environmentinteractions and to monitor poverty reductionthat results from environmental changes.
Indicators can be used to monitor change atdifferent scales, for different purposes and in anumber of different ways. At the national (orsub-national) level, poverty-environmenttrends can be monitored over time and acrossgeo-political categories. An example of arelatively simple but important individualindicator at the national level is “populationwith access to safe water.” Data for thisindicator is collected globally and can be usedto compare different countries or provincesover several different years. If countries arewilling to collect more detailed data, the OECD(1994) designed Pressure-State-Response (PSR)model can be used to assess change. This modelseeks to identify a cluster of indicators for eachenvironmental problem that are indicative ofwhere the pressure on the environment comesfrom, what the state or general condition of theenvironmental good is, and what society’sresponse has been or needs to be to alleviatepressure.
At the project level, it is important to use thelogical framework around which developmentprojects are generally organized to identify aseries of indicators. Thus, indicators are neededto monitor inputs or resources provided by theproject, outputs, referring to goods and servicesthat result from the project, outcomes or theshort-terms results from the project andimpacts, that is, the more pervasive long-termchanges that at least partially result from theproject (Segnestam 1999, Prenusshi and others2001). In cases where the project is a very largeone, it is possible that the impact indicatorsreally reflect project outcomes. In other cases,impact indicators will reflect contributionsfrom the project and other sources of change.
Input and output indicators are sometimesreferred to as intermediate indicators, whileoutcome and impact indicators are seen as finalindicators. Figure 1 provides a graphicdepiction of these different indicators andprovides examples from water and sanitationprojects. As the figure shows, differentindicators need to and can be used to monitordifferent aspects of a project or program. Whilefinal indicators may be most useful forassessing changes in overall well-being,intermediate indicators can be cost-effectiveproxies and can provide useful information onwhat is working and what is not at the projectlevel.
A somewhat different set of indicators thathave recently gained prominence, especiallyfor poverty monitoring, are geo-referencedindicators (Henninger and Hammond 2000).
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Essentially, these indicator maps overlay socialor poverty indicators over a geographicframework. Such spatially referencedindicators are based on household data as wellas satellite images and geographic informationsystems. These indicators can be an importanttool for geographic targeting of interventionschemes.
As established above, a variety of indicatorscan be used to monitor change in anyparticular situation. Given that resources formonitoring and evaluation are limited,choosing the right set of indicators is veryimportant. This choice depends on the goal orpurpose for which monitoring is required, thescale at which monitoring is required and onthe quality of available indicators. Box 1outlines the characteristics of good indicators(both intermediate and final). As the Boxsuggests, a good indicator is one that isunambiguous in terms of identifying
improvements, sensitive to changes, that is, itreflects changing policy circumstances and iscost-effective.
The aim of this paper is to identify indicatorsthat can be used to assess poverty-environmentinteractions. The poverty-environmentrelationship is complex and dynamic, anddifficult to comprehend in all of its dimensions.For the purpose of poverty reduction, perhapsthe most useful question to ask is ‘how doenvironmental factors impact the lives of thepoor and poverty reduction efforts?’ Whilethere are variety of different ways in which thepoor and environmental resources areconnected, this note emphasizes the role playedby environmental conditions as a determinant ofpoverty. In doing so, this note follows theframework presented in the EnvironmentChapter of the World Bank’s Poverty ReductionStrategy Toolkit (Bojo and others 2001). Thus,this paper addresses two aspects of theenvironment that affect the poor:
Figure 1. Types of indicators
Goal:
Decreased morbidity and mortality from diarrhea among
children through improved water and sanitation.
Impact
Outcome
Outputs
Inputs
Effects on dimensions of well being –
Prevalence of diarrhea among children.
Access to, use of, and satisfaction withservices –Time taken/distance traveled to
obtain water, % reduction in BOD, etc.
Goods and services generated – Number ofprivate tap connections, number of meters
fixed, etc.
Financial and physical indicators ofresources provided – Spending on water
and sanitation.
Final
indicators
Intermediateindicators
Source: Adapted from Prenusshi and others 2001.
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Introduction
1. Environmental conditions that impact thehealth of the poor.
2. Natural resource conditions that affect theincome and security of poor households.
Box 1.Features of good indicators
A good indicator:• Is a direct and unambiguous measure of
progress• Is relevant, i.e., it measures factors that reflect
the goals/objectives of the program/project• Varies across areas, groups, over time, and is
sensitive to changes in policies, programs andinstitutions
• Is transparent and cannot be manipulated toshow achievement where none exists
• Is cost-effective to track.
Source: G. Prennushi, G. Rubio, and K. Subbarao 2001.
The substance of these two issues has beenpresented in detail in other papers (Bucknalland others 2000) and will not be repeated here.Rather, this note focuses on the different kindsof indicators that can be most usefullyemployed to monitor the environmentaldeterminants of health and income poverty.
The following chapter focuses on indicatorsthat can be used to monitor the impact ofenvironmental quality on the health of thepoor. Chapter 3 looks at the more complexissue of natural resources and poverty andpoints to indicators and data needed tomonitor change. The last chapter identifiessome of the poverty-environment indicatorspresented in Poverty Reduction StrategyPapers (PRSPs) and interim PRSPs undertakenin World Bank client countries, and offers someoptions for expanding on these indicators.
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Table 1. Burden of disease from major environmental risks
Environmental
Percent of all DALYs in each country group
health group SSA India
Asia /
Pacific China MNA LAC FSE EME
All
LDCs
Water supply
and sanitation 10 9 8 3.5 8 5.5 1.5 1 7
Vector diseases 9 0.5 1.5 0 0.3 0 0 0 3
Indoor air pollution 5.5 6 5 3.5 1.7 0.5 0 0 4
Urban air pollution 1 2 2 4.5 3 3 3 1 2
Agroindustrial waste 1 1 1 1.5 1 2 2 2.5 1
All causes 26.5 18.5 17.5 13 14 11 6.5 4.5 18
Environment and Health2It is increasingly accepted that environmentalfactors are a significant determinant of healthand illness in poor countries. Health outcomesthat are a result of environmental conditions areclassified under the category of “environmentalhealth.” While no standard definition ofenvironmental health exists, a description usedin a recent World Bank publication (2000)—”environmental health refers to those aspects ofhuman health, including quality of life, that aredetermined by physical, biological, social, andpsychological factors in the environment”—isindicative of the breadth of issues covered.
In general, environmental health risks fall intotwo broad categories (World Bank 2000a):
1. Traditional hazards related to poverty andlack of development, such as lack of safewater, inadequate sanitation and wastedisposal, indoor air pollution, and vector-borne diseases
2. Modern hazards such as urban airpollution and exposure to agroindustrialchemicals and waste that are caused bydevelopment that lack environmentalsafeguards.
Available global evidence suggests that the twomost important ways in which environmentalquality has a negative impact on the health ofthe poor is through water and indoor airpollution. Respiratory infections and diarrhealdiseases are the two biggest causes of deathamong the poorest 20 percent of the world’scountries as ranked by national GDP per capita(Gwatkin and Guillot 1999). Water pollution isa key source of a number of diseases such asdiarrhea, malaria, and cholera. Air pollution isanother major reason for concern because of itscontribution to respiratory tract infections.
A ranking of environmental diseases in termsof their contribution to burden of disease is
Notes: DALYs = Disability Adjusted Life Years, SSA = Sub-Saharan Africa, MNA = Middle East and North Africa, LAC = Latin Americaand the Caribbean, FSE = Former Socialist Economies, EME = Established Market Economies, LDCs = Less developed countries.Source: Murray and Lopez 1996; Smith 1993, 1998, 1999; WHO 1997; WDI 1999; World Bank staff in World Bank 2000a.
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presented in Table 1 below. As this table showswater and sanitation related diseases are themost important for developing countries. Thisis followed by indoor air pollution and thenvector borne diseases such as Malaria, indoorair pollution, urban air pollution, andagroindustrial waste (World Bank 2000a: Table1).1 On the whole, the impact of traditionalenvironmental hazards exceeds that of modernhazards by a factor of ten in Africa, a factor offive in Asia (except China), and a factor oftwo-and-one-half in Latin America.
Key Environment Health Indicators
Using a selective set of indicators to assess theimpacts of environmental factors on health isimportant. Table 2 presents some intermediateand impact indicators that are most routinelyused for monitoring the three most commonenvironmental health problems faced in poorcountries—diarrhea, acute respiratoryinfections, and malaria (in prevalent areas).Intermediate indicators refer to project,sectoral or macro inputs and outputs thataffect health. Impact indicators are more directmeasurements of the quality of environmentalhealth. Definitions and data sources for theseindicators are presented in the Appendix.
Access to safe water and sanitation arecommonly used indicators for assessing healthoutcomes such as diarrhea. Data for theseindicators is generally available in large globaldata sets such as the World DevelopmentIndicators. However, these indicators arerather broad and sometimes hide the ‘real’access poor people have to water andsanitation. Where possible, these indicatorsneed to be complemented with some of theother indicators shown in Table 2, such asquantity of water used per capita and hours ofavailable water supply.2 In addition, water andsanitation related diseases such as diarrhea areas much dependent on behavioral practices ofhouseholds as they are on quantity of waterused. It is therefore useful to monitor
indicators such as disposal practices of fecesand hand washing behavior when it is possibleto do so.
Respiratory infection is a significant problemamong poor households. Table 2 presentsindicators that are useful for assessing projectoutputs designed to decrease acute and chronicrespiratory infections (ARI and CRI) or tomonitor conditions that increase or decreaserespiratory infections. These include,availability of ventilation in poor households,children sleeping in cooking areas, and thetypes of cooking stoves and fuel used.Demographic health surveys (DHS)undertaken in several countries worldwideprovide data on ARI prevalence, a usefulimpact indicator.
The Malaria related indicators in Table 2 havebeen taken from the globally discussed RollBack Malaria (RBM) initiative. This programbuilds on previous international efforts toaccelerate malaria control in Africa, and seeksto halve the malaria burden in participatingcountries through interventions that areadapted to local needs (WHO 2000). RBMproposes a series of key impact, prevention anddisease management, and health sectordevelopment, interlinkages and partnershipindicators. While most indicators will vary bycountry, five are considered so important thatthey have been selected as global indicators.These core indicators are presented in Table 2and would be appropriate for many of theAfrican countries. Data on impact indicatorssuch as th Malaria Death Rate, andintermediate indicators, such as householdswith treated bednets, are available in varioushealth data sets.
Several impact indicators are presented inTable 2 that can be used to directly monitorhealth trends related to diarrhea, ARI andMalaria. While indicators such as under 5mortality rate3 are routinely used, theDisability Adjusted Life Years (DALY), a
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composite indicator, has more recently becomea standard measure of the burden of disease.Box 2 describes the DALY. Public healthexpenditures is a broad but useful proxyindicator for government policies that have animpact on health.
Disaggregating Health Indicators byIncome or Wealth
For the purposes of poverty reduction, itbecomes important to consider how theenvironmental health of poor people can beassessed. Do the poor disproportionately bear
Table 2. Selected key environmental health indicators
* Notes: The intermediate indicators in this category pertain mainly to indoor air pollution. However, for countries such as China whereurban air pollution is likely to grow in magnitude, it would be important to identify intermediate and impact indicators related to outdoorair pollution. Blood lead levels among children is a good indicator of urban pollution.
Environment-
related illness Intermediate indicator Impact indicator
Diarrhea � Access to safe water (private or public)
� Access to sanitation (private or public)
� Hours/day of available piped water
� Quantity of water used per capita per day
� Time taken/distance involved in collecting
water
� Disposal practices of children’s feces
� Percentage of child caregivers and food
prepares with appropriate hand washing
behavior
� E. coli/100 ml of water consumed by
residents by source
� Persons per room of housing
• Prevalence of diarrhea
Respiratory
infections*
� Availability of ventilation in cooking area
� Children sleeping in cooking area
� Percentage of households using clean fuel/
improved stoves
� Prevalence of ARI/CRI
� Prevalence of chronic lung
disease (COPD)
Malaria � Proportion of households having at least
one treated bednet
� Percentage of health facilities reporting no
disruption of stock of anti-malarial drugs
(as specified by national health policy) for
more than one week during the previous 3
months
� Malaria death rate (probable
and confirmed) among target
groups (under 5 and others )
� Number of malaria cases,
severe and uncomplicated
(probable and confirmed)
among target groups
� Percentage of patients with
uncomplicated malaria getting
correct treatment at health
facility and community levels,
according to the national
guidelines, within 24 hours of
onset of symptoms
Broad indicators � Public health expenditures � Under 5 mortality rate
� Disability Adjusted Life Years
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the health costs of environmental degradation,i.e., is environmental quality a relatively majordeterminant of the health of the poor? There issome evidence that suggests that this indeedtrue.
Ill health as a result of environmentalconditions is a much bigger problem in poorcountries relative to rich countries. Figure 2shows environmental influence on burden ofdisease in developing versus developedcountries. It is estimated that theenvironmental component of the total burdenof disease is approximately 18 percent in allless developed countries, a number that is
much higher than the same for industrializedmarket economies. The environmentalcomponent of the total burden of disease is 27percent for Sub-Saharan Africa, andapproximately 18 percent for Asia (World Bank2000a).Within a country or sub-region, declines inenvironmental quality are likely to affect thehealth of the poor more severely than the rich.Their low nutritional status makes the poormore vulnerable to environmentally drivenillnesses; and evidence suggests that waterpollution and indoor air pollution affect thepoor disproportionately relative to the rich.
At the national or sub-national or regionallevels, there are some common indicators thathave been routinely used to signal people’sdependence on dirty water. As previouslymentioned access to safe water and sanitationare two indicators with information collectedby many countries and presented in globaldata sets. However, to really monitor theextent to which poor people depend on cleanwater and have access to sanitation facilities, itis useful to disaggregate these indicators andmonitor them by income or wealth quintilegroups.
Figure 3 presents a picture of access to waterdisaggregated by wealth quintiles. In Senegal,37 percent of the population in 1997 had accessto private water. However, this averagenumber becomes more revealing whendisaggregated by quintiles. Less than 1 percentof the poor had access to private water (eventhough they did have access to public water
Box 2.Disability Adjusted Life Years
DALYs measure life years lost due to prematuredeath and fractions of years of healthy life lostfrom illness or disability. They are a measure ofthe burden of disease borne by a group or popu-lation at a point in time, and reflect the totalamount of healthy life lost from all causes. DALYsreflect social weights given to illness or death atdifferent ages. For example, the death of a babygirl represents a loss of 32.5 DALY, while femaledeath at age 60 represents 12 lost DALYs. In gen-eral, the DALY is used to help with: a) settinghealth service priorities; b) targeting health inter-ventions to disadvantaged groups; c) providing acomparable measure for monitoring impacts.
Source: Murray and Lopez 1996, Homedes 1996.
Figure 2. Burden of disease and environmentalrisks
Notes: LDC = Less Developed CountryEME = Established Market Economy
Source: Reproduced (not exact) from World Bank 2000a; sourcesinclude Murray and Lopez 1998 and World Bank staff.
0
50
100
150
200
250
300
LDCs EMEs
(tho
usa
nd
s)D
ALY
spe
rm
illion
peop
le
Env. DALYs
Other DALYs
Figure 3. Access to private and public waterby quintile group, Senegal
Source: DHS data 1997, constructed by Limin Wang.4
0
20
40
60
80
100
Perc
ent
of
tota
lho
use
ho
lds
1 2 3 4 5
Wealth quintiles
Access toprivatewaterAccess topublicwater
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Environment and Health
supply). In contrast, 92 percent of householdsin the highest quintile had access to goodquality private water.
A similar story emerges on sanitation issues.Figure 4 presents information on access toprivate and public toilets in Peru. As can beseen above, the poorest two quintiles havemore or less no access to private toilets, butaccess increases rapidly among the middlewealth categories.
Access to water and sanitation are indirectindicators of health outcomes. An importantimpact indicator of health is under 5 mortality
rates (U5MR). Figure 5 shows a graphicalrepresentation of these indicators for Senegal.The total under five mortality rate in Senegal is139 per 1000 live births; however, the rate forthe poorest quintile is 189 per 1000. The samenumber for the richest quintile is 70. Clearlythere is a wide gap between health outcomesassociated with the rich and poor.
Table 3 presents information about two otherimportant environmental health indicators forfive countries in Africa: prevalence of diarrheaand prevalence of ARI. Demographic andHealth Survey data for a number of countriesin Africa contain information on percentage ofchildren who fell ill from diarrhea in thepreceding 2 weeks. As Table 3 shows, poorchildren succumb more than rich children to
Figure 4. Access to sanitation facilities byquintile group, Peru
Source: Bucknall and others 2000.
02468
1012141618
Perc
ent
of
tota
lho
use
ho
lds
Poorest
20%
2 3 4 Richest
20%Wealth quintiles
Private Toilet
No Toilet
Table 3. Diarrhea and ARI prevalence as poverty-environment indicators
Source: DHS Surveys 1994�97, compiled by Pande and Gwatkin 1999.
Percent of surviving children under 5 who had diarrhea
in preceding two weeks, by quintile
Country Poorest Richest Poor/rich ratio
Malawi 23.7 21 1.13
Senegal 15.3 13.7 1.117
Tanzania 13.7 12.3 1.114
Uganda 29.9 17 1.759
Zimbabwe 28.9 17.3 1.671
Percent of surviving children under 5 ill from acute respiratory
infection in preceding two weeks, by quintile
Malawi 16.8 13.3 1.26
Senegal - - -
Tanzania 11.6 12.3 .94
Uganda 32 18.6 1.72
Zimbabwe 34.9 16 2.18
Figure 5. U5 mortality by quintile group,Senegal
Source: DHS data 1996, constructed by Limin Wang.
050
100
150200
U5
mo
rtal
ity
per
10
0l.b
.
1 2 3 4 5
Wealth quintile
Poverty — Environment Indicators
Environment Department Papers10
this illness. DHS information can be also beused to analyze prevalence and percent of thepopulation that was seen medically for ARI.
Table 3 shows that, exceptin the case of Tanzania,there is a significant gapin ARI prevalence amongchildren between the richand the poor. Again, theconclusion is that it isimportant to disaggregatehealth indicators to get aclear understanding ofhow the poor are affected.
The focus so far has beenon presenting examples of health indicatorsthat measure physical changes in health.Health outcomes are a result of physical
Table 4. Public health expenditures accruing to the poorest and richestquintiles
Source: Castro-Leal and others 1999.
Country
Poorest 20
percent
Richest 20
percent Rich/poor ratio
Cote d’Ivoire (1995) 11 32 2.90
Ghana (1992) 12 33 2.75
Guinea (1994) 4 48 12.00
Kenya (1992) 14 24 1.71
Madagascar (1993) 12 30 2.50
South Africa (1993) 16 17 1.06
Tanzania (1992/93) 17 29 1.71
Box 3.Project level indicators — Volta Region Community Water and Sanitation Program
Source: Evaluation of Hygiene Education Component of the Volta Region Community Water and Sanitation Program. Ho, Ghana:Community Water and Sanitation Division, VRCWSP, reproduced from Bojo and others (2001).
Indicator Unit of measurement
Sanitation and
hygiene
� Absence of feces and urine on latrine floors and compound
� Absence of cleansing materials on latrine floor
� Absence of odor and flies in the latrine
� Evidence of hand washing after use of latrine
Water and
hygiene
� Water fetching points are free of dirt
� Water transported in clean collecting vessels
� Water storage containers free from dirt, placed in clean environment and
covered
� Use of cup with long handle for collecting water
Health, KAD � Percentage of population that can demonstrate new knowledge as regards
hazards associated with water, sanitation and health of each target community
� An existing agenda on hygiene education with data on activities such as the
number of hygiene education meetings held and number of women attending
the meetings and follow-up activities
� Target schools will have in existence: a hygiene education plan, data on
number of meetings held by the school health committee, x number of trained
schools health coordinators, a hygienically kept latrine with hand washing
facilities, and clean school environment.
� Existence of hygiene education program involving the whole community
emphasizing the following: proper disposal of refuse, proper disposal of waste
water, penning of animals, x number of meetings held on hygiene activities.
� Environmental cleanliness and human excreta disposal
� At least 4 out of 10 households have some mechanisms of hand washing
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conditions, personal behavior, access toresources, and policy frameworks. Thus, a keyissue is whether the policies in place favor thepoor and support better health outcomes. Agood proxy indicator of policies is governmentexpenditures on health. Table 4 presents dataon health expenditures in several countries inAfrica.
Table 4 clearly shows that in African countriesricher people benefit much more than the poorin terms of public support for health. Thenumbers for Guinea are the most stark, whichhas a rich-poor ratio of 12. Monitoring publicexpenditures on health by quintile groups is acostly undertaking. However, the above datasuggests that this is an important povertyindicator and needs to be monitored.
Much of the discussion so far has been onsector specific or country/region specificindicators. Indicators are of course extremelyimportant at the project level to evaluateproject impacts and to monitor project outputs.Decisions about these indicators will criticallydepend on the specifics of the project and the
stakeholders involved. Box 3 presents anillustration of a set of project level indicators.
In conclusion, an important question to addressis which of the many indicators presented so farare the most important ones for monitoringenvironmental health outcomes. The answer tothis question will depend on a) data availability;b) cost and ease of measurement andmonitoring; c) stakeholder perceptions on whatis important to monitor and acceptance ofindicators; and d) and final purpose for whichthe information is used.
At the project or program level, it is importantthat indicators fit into the logical frameworkused in designing interventions and thatindicators are used to track progress towardplanned goals. At the national level, a core setof environmental health indicators could beselected based on international dialogue andagreement. Data on many of the suggestedindicators are collected, and it should not betoo difficult to seek consensus on a smallnumber of core environmental healthindicators for PRSP countries.
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Poverty and Natural Resources
3 Poverty and Natural Resources
Do natural resources make a significantcontribution to the real income earned by thepoor in the short, medium or long term? Are therisks faced by the poor affected by a decline inthe quality or quantity natural resources? Howdo we monitor the impacts of natural resourcedegradation on poor people’s income andvariability in income? From a policyperspective, it is important to understand howenvironmental quality and natural resourcesaffect the well being of the poor. It is alsoimportant to know if resource degradation is asignificant factor among the variety ofconstraints faced by the poor.
There is considerable debate about whether thepoor are victims or agents of environmentaldegradation (Bucknall and others 2000, Ekbomand Bojo 1999). There is also increasingconsensus that the relationship between thepoor and natural resources is mediated by anumber of micro and macro factors. Poor peoplemake rational decisions based on limitedinformation and within a given institutional orpolicy framework, about their labor choices, therisks they are willing to bear, and factors thataffect their health. Thus, under varyingcircumstances, it may be optimal for poorpeople to mine natural resources, as is the casewith soil degradation in several countriesaround the world. However, if under themedium or long-run, this makes the poor morevulnerable to income shocks, then it isimportant to monitor the extent and pace of soildegradation and the alternate inputs availableto the poor to combat the implications of
degradation. Also, if public hazards result fromindividual action—e.g., increased floods as aresult of soil erosion—there is again a case formonitoring soil degradation and erosion as partof any effort to reduce poverty.
In this note, the focus is on how resource losscan act as a determinant of poverty. Naturalresource degradation can affect the poor byaffecting the productivity of inputs they use togrow food, by directly reducing the forest andaquatic products they consume, and bydecreasing the ability of natural resources toprovide a cushion to poor people during timeswhen monetary income or agricultural produceis unavailable. Natural resources are sometimesthe only assets to which poor people haveaccess. Thus, degradation can decrease theirwealth. Degradation can also affects eco-systemfunctions, increase ecological fragility, andincrease the vulnerability of the poor to naturalshocks. However, it is also true that, undercertain circumstances, degradation can help thepoor if they are able to use income obtainedfrom depleting natural resources to improvetheir lives in other ways.
Key Poverty-Natural Resource Indicators
Natural systems are extremely complex, and itwould not be cost effective to monitor all thedifferent ways in which the poor are affected bytheir natural environment. The local diversity ofnatural resource problems may also render anylist of all global poverty-natural resourceindicators irrelevant. The sometimes circularconnection between poverty and natural
Poverty — Environment Indicators
Environment Department Papers14
Poverty issue Poverty-environment indicator
Natural resource
problems that
could influence
this indicator
Percentage of rural population below poverty line1
Rural per capita cereal production
2 Time spent by household members to collect water and
fuel wood
3 Distance walked by household members to collect water
and fuel wood
4 Quantity of annual household consumption derived from
common lands1
5 Quantity of annual household consumption that is
derived from forest products and fisheries1
6 Percentage of irrigated area in total cultivated area by
wealth/income categories2
7
Income and
opportunity
Percentage of rural households with adequate water for
livestock by wealth/income categories2
Deforestation
Water scarcity
Overfishing
Land degradation
8 Rural per capita cereal production
9 Percentage of farmers who grow drought resistant crops
by income/wealth quintiles
Land degradation
Water scarcity
Pest outbreak
Natural disasters
10 Quantity of household consumption that is derived from
forest products and fisheries1
Deforestation
Overfishing
11 Percentage of rural children under five who are
underweight
12 Percentage of rural children under five who are stunted
13
Food security
Percentage of rural children under five who are wasted
Land degradation
Water scarcity
Water quality
14 Households rendered homeless from
floods/hurricanes/cyclones/landslides per year by income
/ wealth quintiles
15 Number of deaths from natural disasters by income /
wealth quintiles
16 Percentage of farmers with land on slopes/wetlands by
income / wealth quintiles
17
Vulnerability
to natural
disasters
Percentage of rural children under five who are wasted
Natural disaster
Deforestation
resource degradation also makes the monitoringof poverty-environmental indicators and theirinterpretation very challenging. Nonetheless,we offer below a set of indicators that are mostcommonly used in the literature on naturalresources. These indicators should be
considered a sample of indicators with broadutility for monitoring the natural resourcerelated factors that affect the income, securityand vulnerability of poor households indeveloping countries. In order to be clear aboutwhat is meant by a poverty-natural resource
Table 5. A sample of poverty-natural resource indicators that affect income, security, andvulnerability of poor people in poor countries
Notes:1. Among households that are largely dependent on natural resources with few alternative income/employment opportunities.2. Field tested by a DFID research group (DFID 2001).
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Box 4.Monitoring time spent by women and
children on collecting water
Vidharbha is a large and under-developed regionin Maharashtra, India. A participatory researchteam working with 10 villages in Nagpur district,started a research program in 1995 on safe drink-ing water. The researcher documents that womenin these villages worried tremendously about thequantity of water that was available, paying verylittle attention to its quality. With good reason—all 10 villages had serious water problems withthe burden of collecting water falling entirely onwomen and girl children. Women and childrenfetched water from farm wells situated 2–3 kmaway, often in 47ºC heat in the summer months.An average family required 250–300 liters of wa-ter per day. A woman could fetch 5–8 liters of watereach time because of what her pot could carry.Thus, female adults and female children walked 35–40times each day to fetch water. They generally woke upat 4:30 a.m. and collected water until 6:30 or 7:00 a.m.;the same routine was repeated in the evening. Little ofthis water was used for personal hygiene sincethis was a low priority (L. Devasia 1998). This pic-ture, even accounting for any respondent exag-geration, shows the extreme vulnerability of thepoor in relation to water scarcity.
Box 5.People’s dependence on forest products
A recent study by William Cavendish (1999) showsthe economic contribution of environmental re-sources to poor households in Zimbabwe. Thisstudy was undertaken in the Shindi Ward inSouthern Zimbabwe and was comprised of twohousehold surveys (1993–94 and 1996–97). The re-sults are striking:1. In both years environmental income makes a
substantial contribution to total household in-comes, comprising 35.4 percent of total incomein 1993–94 and 36.9 percent in 1996–97.
2. In the latter year, environmental income wasequivalent or greater to all other (cash and non-cash) income earned. The inclusion of environ-mental resources over and above income sourcesnormally captured in rural household surveyswould have boosted measured mean incomesby as much as 46 percnet in 1996–97.
3. Data disaggregated by income quintiles presentssome important results. The bottom 20 percentof the population generated 40 percent of theirincome from environmental goods, while thetop 20 percent generated approximately 29 per-cent of income from the environment.
4. While environment contributes most to poorhouseholds, in absolute terms, the top quintileconsumes 3–4 times the value and quantity con-sumed by the poorest.
This study shows the nature of the dependence ofrural households on environmental resources andthe importance of “accounting” for these resources.
indicator, a working definition of such anindicator is developed. Thus, a poverty-naturalresource indicator is one which changes when“better management of a natural resource leadsto decline in poverty ( broadly defined).”
Table 5 presents indicators that show the extentto which poor people depend on resources.Boxes 4 and 5 provide illustrations of this fact.Table 9 in the Appendix provides some workingdefinitions and sources of data for the indicatorspresented.
An important basic indicator of income povertyin rural areas is the is widely published andused “percentage of rural population below thepoverty line” (World Bank 2001a). This is abroad indicator that is expected to decline over
time if natural resources are unsustainablymanaged. Also included as a broad indicator ofincome is rural per capita cereal production.
Indicators such as “time spent to or distancetraveled to collect water or fuel wood” areproxies for effort expended on obtaininglivelihood resources or income. These twoindicators are substitutes for each other and areparticularly important for understanding resourcedegradation impacts on women and children. Ingeneral, time and distance indicators provideinformation on the increased burden on womenand children that may result from deforestation,drying-up of water sources, or a decline in
Poverty — Environment Indicators
Environment Department Papers16
access to fuelwood and water because ofchanges in property rights. Box 4 provides anillustration of time spent on water collection. Asthe Box shows, efforts put into collecting watercan be considerable; therefore, the need tomonitor such indicators. Data on time anddistance may be available through the WorldBank supported Living Standards MeasurementSurveys (LSMS) (Whittington 2000).5
Indicators such as “quantity of householdconsumption derived from forest products” and“quantity of household consumption that isderived from commons”6 are useful indicatorsof income poverty.7 Box 5 illustrates this fact.However, care needs to be used in interpretingthese indicators. These indicators aremeaningful poverty-environment indicatorsonly in cases where households are largelydependent on natural resources and do not haveaccess to alternate employment or incomeopportunities. For example, if the “quantity ofconsumption from forest products” declines, itcan be interpreted as a decline in income if andonly if the household has not substituted forestproduct collection for a different more profitablelabor activity.
“Percentage of irrigated area in total cultivatedarea” can provide information on the poor’saccess to an important agricultural input, if datais disaggregated by income or wealth quintiles.“Percentage of rural households with adequatewater for livestock, disaggregated by income/wealth categories” is an important indicator ofthe ability of the poor to maintain non-landincome generating assets. These two indicatorswere field tested by a DFID research group(2001) and identified as indicators for whichcountry level data are available in some casestudy countries.
In general, food security depends on foodavailability, stability, accessibility andutlilization (FAO 2000). Food availability isclosely related to production of food, and, thus,
to natural resource management. Stabilityreflects variation across time and space and canbe influenced by price changes and marketforces. Food accessibility is linked to povertyand whether poor households have physicalaccess, that is, whether there are roads andmarkets close to them and whether they havemonetary resources to buy food. Another keycomponent of food security that is linked topoverty is biological utilization, which reflectsthe ability of the human body to consume andretain nutrients.
Table 5 includes three indicators on foodavailability. “Rural per capita cereal production’is a direct measure of output divided by therural population. This broad indicator reflectsfood production and is likely to change duringyears of drought, natural disasters, and pestoutbreaks, for example. This indicator may alsoshow a gradual decline overtime because of soilfertility changes. Data are available in the WorldDevelopment Indicators series. It is to be notedthat while useful, this indicator alone does nottell us much about food security implicationsfor the poor.
Evidence suggests that poor households dependon natural resources during “lean” times. Thus,“quantity of household consumption that isderived from forest products and fisheries” canbe expected to increase when crops fail—thisindicator captures the direct role of resources asa safety net. Also included in Table 5 is adrought related indicator—”Percentage offarmers who grow drought resistant crops.” Itwould be useful to have information on thisindicator disaggregated by wealth or incomequintiles.
Malnutrition indicators reflect poverty and thequality and quantity of natural resources towhich poor households have access.Environmental factors play an important rolehere because of their impact on food productionand on environmental health. Table 5 includes
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three malnutrition related indicators.“Percentage of rural children under five whoare under-weight” is the most commonindicator of malnutrition. This is an importantpoverty indicator since being underweightincreases the risk of death and inhibits cognitivedevelopment among children (World Bank2001). Stunting, which refers to height for age, isa long-term indicator of malnutrition. Wasting,which refers to weight for height, is moreindicative of acute shortages in food.Information on malnutrition indicatorsdisaggregated by wealth/income quintileswould be optimal.
Lastly, Table 5 includes a set of indicators on thevulnerability of the poor to large natural events,such as to natural disasters. Indicators such as“Percentage of households rendered homelessby floods/cyclones and so forth,” and“Percentage of farmers with land on slopes,” arebroad indicators of vulnerability. Information onthese indicators needs to be disaggregated byincome/wealth quintiles to get an accurateunderstanding of how the poor are impacted.Another useful poverty-environment indicatoris “wasting before and after natural disasters.”This indicator is sensitive to the type of acutegrowth disturbances that may be caused bynatural disasters.
The list presented in Table 5 is by no meansexhaustive. It will have to be modified to suitlocal conditions and local data sets. Theseindicators also need to be used with cautionbecause of the complex nature of poverty-environment linkages. Because of the strongneed for local natural resource-povertyindicators, it may be useful to think about acommon framework for identifying theseindicators, rather than a list of indicators. This ispresented in the next section.
The Pressure-State-Poverty-Response-Framework
The complexity of resource degradation-povertylinks makes it useful to employ a systematic
framework for ensuring that environmentalfactors are not making the poor even more poor.OECDs Pressure-State-Response (PSR) modeloffers one relatively straightforward frameworkfor monitoring the impact of resourcedegradation on the poor and identifying policymeasures to stem the problems faced by thepoor.
The OECD framework considers keyenvironmental problems, identifies drivingforces that are leading to pressure on naturalresources, tracks the state of the resource, andthen identifies mechanisms that have been orcan be put into place in response. A slightmodification of this model would allow us totrack the poverty impacts of degradation. Thismodel, referred to as the Pressure-State-Poverty-Response (PSPR) model, allows us totrack the impact of pressure factors not only onnatural resources but also on the poor. Table 6presents an example for the environmentalproblem of deforestation.
Indicators of deforestation such as deforestationrate and area deforested are now routinely usedto monitor changes in forest cover. Table 6suggests that within a PRSP framework it isuseful to consider these indicators in tandemwith poverty indicators. This table presents a setof poverty indicators that can be monitored tocapture the effects of deforestation on poorpeople’s real income.
The first four poverty indicators in Table 6 arevillage or province level indicators, theremaining are household level indicators.Arguably, the three most important of thesepoverty indicators are “Percentage of poorhouseholds in forest rich provinces” at theprovince or country level and “Time spent ordistance walked to collect fuelwood/water (byquintile)” or “Percentage of household whocollect fuelwood (by quintile)” at the project or
Poverty — Environment Indicators
Environment Department Papers18
sector level. Indicators such as decline inagricultural productivity because of use of
marginal lands may be more difficult tomeasure.
Table 6. Deforestation and income impacts on the poor � Indicators within the Pressure-State-Poverty-Response framework
Signals of pressure Indicators of impact on state of …
on forests Forests Poverty Response factors
Rural population
growth rate
Rate of deforestation Percent of poor
households in forest rich
provinces
Increased access to
non-traditional
sources of energy
Rural population
density
Total area under forest
cover
Percent of indigenous
people in forest rich
provinces
Increased access to
piped water
Unclear
property rights
Rate of forest land
conversion
Percent of common lands
available for women to
collect fuelwood and
NTFPS
Strengthened
community
governance of
forest access and
use
Increased rural
under or un-
employment rate
No. of protected areas Percent of village lands in
commons
No. of forest user
groups in district or
state
Decrease in fallow
period
Distance and Time to
collect fuelwood (by
quintile and season)
Modernized land
registry
Increase in
fertilizer prices
Distance and Time to
collect water (by quintile
and season)
No. of land titles
granted
Increased export of
forest products
Decline in agricultural
output because of use of
marginal lands
Increase in timber
prices
Percent of household
who collect fuel wood (by
quintile)
Percent of households
who collect other forest
products (by quintile)
Quantity of household
consumption from forest
products (by quintile and
season)
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The poverty-environment indicators presentedabove are indicators of potentially negativeimpacts resource degradation may have on poorhouseholds. However, unlike the previouslydescribed environmental health indicators,these indicators require a more sophisticatedreading. For example, an increase in time takento collect fuel wood is likely to be anunequivocal indicator of increased burden onpoor households. However, a decline in thequantity of household consumption of forestproducts or a decrease in the percentage ofhouseholds collecting fuel wood may indicate
increased poverty or not depending on whatadditional opportunities may have becomeavailable for poor households. Thus, in dealingwith natural resources, indicators need to beused cautiously and within a clearly specifiedcontext.
Table 7 presents another example ofenvironmental degradation and how its incomeimpacts on poverty can be monitored. The focusin this table is on land degradation. Soil fertilityloss and land degradation are a common andvery important form of environmental loss in
Table 7. Soil fertility and income impacts on the poor � Indicators within the Pressure-State-Poverty-Response framework
Source: Modified from Pieri and others (1995).
Signals of pressure Indicators of impact on state of …
on soil fertility Natural resources Poverty Response factors
Rural population
density in relation to
agro-climatic zone
and soil type
Ratio between actual
and estimated crop
yields
Population below poverty
line (% rural)
Extent of cultivation
of marginal land
Cultivated land /
fallow land
Changes in soil
properties over time
Infant mortality rate (rural
and by quintile)
Extent of use of
biological methods
of soil improvement
Cultivated land /
cultivable land
Occurrence of specific
soil deficiencies, e.g.,
micro nutrients
Rural poverty head count
index
Use of crop rotation
or multiple cropping
Land in monoculture
/ land in multiple
cropping or crop
rotation
Occurrence of
indicator plants for soil
degradation or soil
health
Mean per capita
expenditure (rural and by
quintile)
Fertilizer use
Rural population
growth rate
Balance between soil
nutrient inputs and
outputs (obtained by
measurement and
modeling)
Food production index Number of farmers
groups
Agricultural
productivity
Female headed
households (rural)
Abandonment of
farm land
Cereal yield Net migration rate (rural
to urban)
Conflicts over land
resources
Poverty — Environment Indicators
Environment Department Papers20
many developing countries. These issues areparticularly problematic in sub-humid zones ofWest Africa and many parts of South Asia.
Most of the information in Table 7 is drawnfrom Pieri and others (1995) who suggest thattwo good indicators of pressure on land areincreases in the ratio of cultivated to potentiallycultivable land, and ratio of land inmonoculture without fallowing to land in croprotation. The cultivation/fallow ratio is anindicator that is applicable in low-inputsystems.8 State indicators such as changes insoil property can be observed indirectly throughcrop yields or directly by measuring soilchanges. Change in crop yields over time isanother highly significant indicator of the stateof soil fertility loss.
On the poverty side, there are a number ofindicators that can be used to capture theimpact of land degradation. Broad indicatorssuch as rural population below poverty line,infant mortality rate and head count index areuseful but may reflect changes in a number ofdifferent factors and not just soil or landdegradation. A declining food production indexis useful partly because it reflects changes inland and partly because it signals adverse foodsecurity. Household expenditure (as a proxy forincome) in agricultural households is anotherreasonable indicator. Finally, demographicchanges such as increased rural-urbanmigration and female-headed households couldsignal labor movements as result of landdegradation. However, these indicators shouldbe interpreted carefully because of the numberof different stresses that they could represent.
The PSPR model is simply a framework fortracking the impacts of resource degradation onthe poor. The Tables presented in this sectionseek to illustrate the utility of this framework.The extent to which this framework willactually be used will largely depend on dataavailability and the costs of data collection in
different PRSP countries. Box 6 presents someinformation on data sets available formonitoring poverty at the sub-national level inAfrica.
Poverty-Environment Maps
Geo-referenced indicators are another tool formonitoring the impact of natural resourcedegradation on poverty. A recent paper byHenninger and Hammond (2000) from theWorld Resources Institute makes a strong casefor using poverty-environment maps. Theyargue that a geographic framework for poverty-environment indicators is useful because ofthree reasons:
1. Many environmental problems manifestthemselves spatially. Many environmentalproblems are also very local in nature.Geographic mapping of environmental
Box 6.Data for Monitoring Poverty in Africa —
The Africa Region HouseholdSurvey Data Bank
A large body of survey data exists for SSA coun-tries, much of it from household surveys. Muchof this data is not yet fully accessible because oftwo main constraints. First, the data suffers fromnot being well documented and/or it has not beenfully cleaned and edited. Second the policies inthe country do not allow for full data disclosureand accessibility. The objective of the Africa Re-gion Household Survey Data Bank (AHSDB) is togather and organize household survey data setsto make them available for analysis. The chal-lenges in reaching this objective are: the availabil-ity of data, the documentation of the data sets, thequality of the data and the conditions in the coun-try to disseminate the data. The ultimate objec-tive is to disseminate the data sets to users in SSAand elsewhere through various media (such ashard copy or the internet). As of October 1, 2000the Africa household Survey Databank containeddata sets of 106 surveys. Further details are avail-able on the web at:<http://www4.worldbank.org/afr/poverty/databank/default.htm>.
21Environmental Economics Series
Poverty and Natural Resources
conditions makes it feasible to understandenvironmental conditions and act on themlocally.
2. Maps showing poverty rates andenvironmental data can become importanttools for screening and geographic targetingof intervention schemes. The complexnature of poverty-environment interactionsmake it useful to understand geographicallya) where poverty exists, and b) the nature ofenvironmental conditions in those povertypockets. These maps can help pinpointareas for more in-depth analyses.
3. With greater availability and affordability ofGIS tools and remote sensing products,electronic maps are feasible. They havebecome a convenient way to store andanalyze data from different sectors and atmultiple scales.
There are many examples of the utility ofpoverty-environment maps. The InternationalCenter for Tropical Agriculture in Columbia hasproduced some useful maps of the impact ofHurricane Mitch on Honduras and howflooding affected areas inhabited by thepoor; the World Resources Institute providesome excellent illustrations of human impactson ecosystems; the interim Poverty ReductionStrategy Paper (GOH 2000) from Honduras usespoverty maps to present a geographic picture ofpoverty, etc. In recent times such maps havebecome popular especially because they are agood way to present ideas to policy makers.
The ability of countries to present poverty-environment maps will largely depend on skillsand data availability and the cost of themapping efforts in the country. It is alsoimportant to underscore that these maps arestatic and do not imply any form causality. Ingeneral, a geographic rendition of poverty andits links to the environment is extremely useful.However, it should be noted that this can bedone, in many cases, with simple mappingtechniques that would not require elaborategeo-referencing of data sets.
Box 7.Geo-referencing Household Survey Data
The West Africa Spatial Analysis Prototype(WASAP) is a USAID funded project that addsvalue to Demographic and Health Survey data bygeo-referencing DHS household clusters. Data hasbeen geo-referenced for 12 countries in West Af-rica. This shows that internationally standardizedsurveys such as the DHS can be integrated acrosscountries for regional assessment, raw data canbe plotted on a map to reveal spatial patterns, andsurvey data can be integrated with other mappeddata to produce new modeled estimates. Hen-ninger and Hammond present the utility of thiskind of information by estimating nutrition indi-cators by aridity zones in West Africa. They areable to show for example that the percentage ofchildren who are underweight declines dramati-cally from 46 percent in hyper arid and arid re-gions to 25 percent in humid regions of West Af-rica.
Source: Henninger and Hammond 2000.
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Discussion and Conclusions4The review of existing literature on indicatorssuggests the need for a small number of corepoverty-environment indicators that can bemonitored globally. With environmental healthissues, it is relatively straightforward to identifyindicators to monitor outcomes. While there area number of local issues that need to beconsidered, in several instances the sameindicators can be used from local to globallevels.
It is recommended that core environmentalhealth indicators relate to the three major healthproblems that affect the poor – diarrhea,respiratory infections and malaria (in prevalentareas). Impact indicators, such as infant andunder 5 mortality rates, and intermediateindicators, such as access to water andsanitation, are routinely monitored. In addition,it would be useful to promote data collectionand monitoring of Roll Back Malaria and asmall set of ARI related indicators. For purposesof poverty reduction, it would be important tomonitor environmental health data by quintilegroups. Poor-rich ratios are another useful wayof assessing and acting on inequality inenvironmental health trends.
With natural resource degradation, partlybecause of the circular nature of the interactionsbetween poverty and resource degradation,and, partly because of the range of naturalresource concerns faced by the poor, identifyinga common set of indicators is difficult.Monitoring time spent to collect water and fuelwood would be useful and relatively cost-
effective since the globally implemented LivingStandards Measurement Surveys includeinformation on time-use. Based on a dialoguewith and among client countries, data could becost-effectively gathered and/or analyzed onadditional indicators such as forest productconsumption, rural malnutrition, and propertydamage or death resulting from naturaldisasters. Some of this information can begathered by adding a few questions to theLSMS. This issue bears further discussion.
In order to assess empirically whether poverty-environmental indicators were being used inpoverty strategies, Poverty Reduction StrategyPapers, undertaken by World Bank clientcountries, were informally reviewed. A numberof PRSPs mention poverty-environmentindicators. However, it was not always clearthat these indicators would be systematicallymonitored over time.
Most of the indicators mentioned in the PRSPsrelate to environmental health. Access to safewater and sanitation are the most commonlydiscussed environmental health indicators. Twoother common indicators are infant and under 5mortality. The Zambia PRSP attempted to gobeyond access to clean water to show incidenceof malaria and cholera. A few PRSPsdisaggregate health indicators to show impactson the poor. For example, the interim PRSP fromBurkina Faso has information on prevalence ofdiarrhea and ARI among children, and on infantmortality by quintile groups. The HondurasPRSP identified ‘crowding in houses’ as anotherimportant indicator of environmental health.
Poverty — Environment Indicators
Environment Department Papers24
Relatively few PRSPs discuss natural resource-poverty indicators. The Honduras PRSPacknowledged migration toward previouslyforested areas, and, identified houses located onalluvial slopes along rivers as an indicator ofvulnerability to natural disasters. TheNicaragua PRSP recognized housingconstruction and materials as an indicator ofvulnerability. However, in general, the review ofexisting PRSPs showed that environmentalhealth indicators are more likely to beconsidered than natural resource indicators inpoverty reduction efforts.
In certain cases, it may be useful to promote acommon framework for monitoring poverty-natural resource trends in PRSP countries. Themodified Pressure-State-Poverty-Response
framework is one model that can be used.Poverty-maps overlaid on natural resourcemaps would also be helpful where data andskills are available.
Indicators are tools for monitoring change. Inorder to assess poverty related improvements, itwill be important to have a comparable core setof global indicators. However, the ultimateutility of any set of indicators will depend onhow expensive it is to collect and monitorinformation. It will also depend on the needs oflocal as well as global stakeholders. Thus, anyglobal effort to monitor the poverty impacts ofenvironmental change is likely to be mosteffective if it complements local initiatives andtries to meet local demands.
25Environmental Economics Series
Appendix — Indicators, Definitions, and Sources of Data
Appendix —Indicators, Definitions, and Sourcesof Data
Table 8. Environmental health indicators, some definitions and data sourcesIndicator Definition Sources of data
Access to safe
water (private or
public)
Proportion of population who use any of the following types of water
supply for drinking: piped water, public tap, bore hole/pump, protected
well, protected spring, rain water.1
MICS, DHS,
WDI
Access to
sanitation (private
or public)
Proportion of population, who have within their dwelling or compound:
toilet connected to sewage system, any other flush toilet (private or
public); improved pit latrine; traditional pit latrine1
MICS, DHS,
WDI
Hours/day of
available piped
water
Hours per day of piped water available in rainy and dry seasons5 LSMS
Quantity of water
used per capita
per day
Volume of water collected by or delivered to the household and used
there for drinking, cooking, bathing, personal and household hygiene and
sanitation divided by number of persons in sample households2
Population
based surveys
Time taken/
distance involved
in collecting water
Distance / time taken to walk to nearest source5 Population
based surveys
LSMS
Percentage of
child caregivers
and food prepares
with appropriate
hand washing
behavior
Appropriate hand washing behavior includes critical times (after
defecation and cleaning baby bottoms; before food preparation, eating
and feeding children) and technique (uses water, uses soap or ash,
washes both hands, rubs hands together at least 3 times, dries hands
hygienically) 2
Percent of
residents using
traditional fuels
Proportion of population using firewood, dung and crop residues as
primary fuel for cooking and heating
LSMS
Percent of
households having
at least insecticide
treated net
Number of household having at least one treated bednet divided by total
number of households visited x 1004
Community
surveys
Infant mortality
rate
The number of deaths to children under 12 months of age per 1,000 live
births.3
MICS, DHS,
WDI
Under 5 mortality
rate
The number of deaths to children under five years of age per 1,000 live
births.3
MICS, DHS,
WDI
Prevalence of
diarrhea
Percent of surviving children under three, four, or five years old
(depending on the country) who had diarrhea in the two weeks
preceding the survey, based on mothers’ reports concerning the
presence of loose stools.3
DHS
(continued)
Poverty — Environment Indicators
Environment Department Papers26
Notes:MICS: Multiple Indicator Cluster Survey, supported by UNICEF and carried out by national governments.DHS: Demographic and Health Surveys, supported by USAID and carried out by Macro International.WDI: World Development Indicators, World Bank.DSS: Demographic Surveillance Systems.LSMS: Living Standards and Measurement Surveys, supported by World Bank.
Sources:1. Proposal for Poverty Reduction Strategy HNP Core Indicators. Life cycle segment: Childhood, email Flavia Bustreo, World Bank 2000b.2. Billig and others 1999.3. <http://www.worldbank.org/poverty/health/data/indicat.htm> � Definitions are based on DHS definitions.4. WHO 2000.5. D. Whittington 2000.
Table 8. Environmental health indicators, some definitions and data sources (continued)
Prevalence of
acute respiratory
infection
Percent of surviving children under three, four, or five years old
(depending upon the country) who had a cough accompanied by rapid
breathing in the two weeks preceding the survey, as defined and
reported by the mother.3
DHS
Malaria death rate Total number of malaria deaths (probable or confirmed) per year among
target group divided by mid-year population of the same target group.4
DHS, DSS,
Health facility
surveys
Disability adjusted
life years
Life years lost due to premature death and fractions of years of healthy
life lost from illness or disability.
Disability adjusted
life years
Life years lost due to premature death and fractions of years of healthy
life lost from illness or disability.
Indicator Definition Sources of data
Poverty-environment indicator Definition Data sources
1 Percent of rural population below
poverty line
Percent of rural population living below the
national poverty line
WDI
2 Time spent by household members
to collect water and fuel wood
Total time spent by each household
member to collect water and fuel per day X
no. of household members X no. of days
per year
3 Distance walked by household
members to collect water and fuel
wood
Distance walked by each household
member to collect water and fuel per day X
no. of members X by number of days per
year.
LSMS,
Population
based surveys
4 Quantity of annual household
consumption derived from common
lands1
Quantity of key minor forest produce
consumed per season
5 Quantity of annual household
consumption that is derived from
forest products and fisheries1
Quantity of key minor forest and aquatic
produce consumed per season
Population
based surveys
6 Per capita rural cereal production (Cereal yield per hectare X land under
cereal production )/ rural population
WDI
Table 9. Poverty and natural resource indicators, some definitions and data sources
(continued)
27Environmental Economics Series
Appendix — Indicators, Definitions, and Sources of Data
Table 9. Poverty and natural resource indicators, some definitions and data sources
Notes:1. Among households that are largely dependent on natural resources with few alternative income/employment opportunities.
DHS: Demographic and Health Surveys, supported by USAID and carried out by Macro International.WDI: World Development Indicators, World Bank.LSMS: Living Standards and Measurement Surveys, supported by World Bank.
Poverty-environment indicator Definition Data sources7 Percent of rural children under five
who are underweight
Percent of children under 5 whose weight
measurement is more than 2 standard
deviations below the median reference
standard for their age
8 Percent of rural children under five
who are stunted
Percent of children under 5 whose height
measurement is more than 2 standard
deviations below the median reference
standard for their age
9 Percent of rural children under five
who are wasted
Percent of children under 5 whose weight
measurement is more than 2 standard
deviations below the median reference
standard for their height
DHS
Population
based surveys
11 Households rendered homeless
from floods/hurricanes/cyclones per
year by income / wealth quintiles
Total number of households with their
primary source of dwelling destroyed as a
result of natural disasters per year
12 Number of deaths from natural
disasters by income / wealth
quintiles
Total number of deaths caused from natural
disasters per year
13 Percent of farmers with land on
slopes by income / wealth quintiles
Population
based surveys
29Environmental Economics Series
Poverty and Natural Resources
1. Future projections of air pollution and itsimpacts suggest that by 2020 outdoor airpollution will take the lead over indoor airpollution in contributing to burden ofdisease in countries such as China and inmany former socialist economies (WorldBank 2000a: Table 2).
2. Quantity of water available and used isconsidered much more important thanwater quality for good health outcomes.
3. Under 5 mortality rate is considered a betterindicator of environmental health thaninfant mortality rate because of the stronginfluence of maternal health and birth oninfant mortality.
4. This represents on-going work at theEnvironment Department of the WorldBank. The graph is based on dataconstructed from DHS by MacroInternational.
5. LSMS questionnaire modules includequestions on time spent and distancetraveled to collect water and fuel. Whetherdata is available on these questions dependson how many LSMS surveys included theseparticular modules and questions in actualsurveys.
6. The literature on natural resources suggeststhat the poor may be disproportionatelydependent on commons and therefore aremost affected by degradation of commonproperty resources.
7. Consumption is used instead of incomebecause of difficulties associated withobtaining reliable information on income.
8. This is measured as the R factor, where R =years under cultivation/total years in thecultivation-fallow cycle (Ruthenburg 1980).
Notes
31Environmental Economics Series
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Billig, P., D. Bendahmane and A. Swindale.1999. “Water and Sanitation IndicatorsMeasurement Guide.” Food and NutritionTechnical Assistance Project, Washington,DC.
Bojo, J., J. Bucknall, K. Hamilton, N. Kishor, C.Kraus, and P. Pillai. 2001. EnvironmentChapter, Poverty Reduction Strategy PapersSource Book, World Bank, Washington, DC.
Bucknall, J., C. Kraus, and P. Pillai. 2000.“Poverty and the Environment.”Environment Strategy Background Paper.World Bank, Washington, DC.
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