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www.waterfootprint.org
A Comprehensive Introductionto Water Footprints
2011 Arjen Y. Hoekstra
Professor in Water Management – University of Twente – the Netherlands
Scientific Director – Water Footprint Network
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Overview
- Freshwater scarcity & pollution
- The water footprint of products- National water footprint accounting- The water footprint of a business
- WF sustainability assessment- Response: reducing water footprints
- Water Footprint Network
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Freshwater scarcityand pollution
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Coto Doñana National Park, southern Spain
Strawberries for export
Signs of global water scarcity
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Former Aral Sea, Central Asia
Cotton for export
Signs of global water scarcity
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Signs of global water pollution
Devecser, Hungary, Oct. 5, 2010
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Signs of global water pollution
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The water footprintof a product
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► the volume of fresh water used to produce the product, summed over the various steps of the production chain.
► when and where the water was used:a water footprint includes a temporal and spatial dimension.
The water footprint of a product
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The water footprint of a product
Green water footprint
► volume of rainwater evaporated or incorporated into product.
Blue water footprint
► volume of surface or groundwater evaporated,
incorporated into product or returned to other catchment or the sea.
Grey water footprint
► volume of polluted water.
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Direct water footprint Indirect water footprint
Green water footprint Green water footprint
Blue water footprint Blue water footprint
Grey water footprint Grey water footprint
Water
consumption
Water
pollution
[Hoekstra et al., 2011]
Return flow
Water withdrawal
The traditionalstatistics
on water use
Components of a water footprint
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The green and blue water footprint in relation to the water balance of a catchment area
Runoff fromcatchmentGround- and surface waterSoil and vegetation
Precipitation
Nonproduction-relatedevapotranspiration
Production-related evapotranspiration
Abstraction Return flow
Production-related evapotranspiration
Water containedin products
Water transfer toother catchment
Runoff atfield level
Green water footprint Blue water footprint
Catchment area
Water containedin products
[Hoekstra et al., 2011]
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Assessing the blue and green process water footprint of growing a crop
Water footprint of growing a crop Crop water use (m3/ha) / Crop yield (ton/ha)
lgp
1
10green greend
CWU ET
lgp
1
10blue blued
CWU ET
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Crop water use
Green water evapotranspiration =
min (crop water requirement, effective precipitation)
Blue water evapotranspiration =
min (irrigation requirement, effective irrigation)
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Crop water requirement
1. Calculate reference crop evapotranspiration ET0 (mm/day)e.g. Penman-Monteith equation
2. Calculate crop evapotranspiration Etc (mm/day)Etc = ET0 Kc where Kc = crop coefficient
3. Calculate crop water requirement CWR (m3/ha)CWR = Σ Etc [accumulate over growing period]
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Irrigation requirement
Irrigation requirement = crop water requirement – effective rainfall
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Grey water footprint
• volume of polluted freshwater that associates with the production of a product in its full supply-chain.
• calculated as the volume of water that is required to assimilate pollutants based on ambient water quality standards.
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HarvestingCotton plant Seed-cotton
Cotton seed
Cotton lint
Cotton seedcake
Cotton seed oil
Grey fabric
Fabric
Final textile
Cotton linters
Cotton, notcarded or combed
Cotton, carded orcombed (yarn)
Hulling/extraction
Garnetted stock
Carding/Spinning
Yarn waste
Knitting/weaving
Wet processing
Finishing
Cotton seed oil,refined
Ginning
18.0
63.0
82.0
35.0
47.0
16.0
33.0
51.0
20.0
10.0
00.1
07.1
00.1
00.1
99.0
95.0
10.0
05.0
00.1
00.1
00.1
00.1
99.0
95.0
10.0
05.0
82.0
35.0
Legend
Value fraction
Product fraction
Production chaincotton
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[Hoekstra & Chapagain, 2008]
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Blue water footprint Million m3/yr
2959Mm3/yr
690 Mm3/yr
421 Mm3/yr
2459 Mm3/yr
803 Mm3/yr
581 Mm3/yr
533 Mm3/yr
450 Mm3/yr
EU25's impact on blue water resources
[Hoekstra & Chapagain, 2008]
Water footprint of EU’s cotton consumption (blue water)
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283 Mm3/yr
485 Mm3/yr
3467 Mm3/yr
165 Mm3/yr
Green water footprint Million m3/yr
186 Mm3/yr
325 Mm3/yr
EU25's impact on green water resources
Water footprint of EU’s cotton consumption (green water)
[Hoekstra & Chapagain, 2008]
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Dilution water footprint Million m3/yr
409 Mm3/yr
310 Mm3/yr
92 Mm3/yr
102 Mm3/yr
635 Mm3/yr
83 Mm3/yr
398 Mm3/yr
697 Mm3/yr
EU25's impact on global water resources due to pollution
Water footprint of EU’s cotton consumption (grey water)
[Hoekstra & Chapagain, 2008]
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The water footprint:making a link between consumption in one place and impacts on water systems elsewhere
Shrinking Aral Sea
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The water footprint:making a link between consumption in one place and impacts on water systems elsewhere
[Photo: WWF]
Endangered Indus River Dolphin
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[Hoekstra & Chapagain, 2008]
This is a global average and aggregate number. Policy decisions should be taken on the basis of:
1. Actual water footprint of certain coffee at the precise production location.
2. Ratio green/blue/grey water footprint.
3. Local impacts of the water footprint based on local vulnerability and scarcity.
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[Hoekstra & Chapagain, 2008]
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[Hoekstra & Chapagain, 2008]
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[Hoekstra & Chapagain, 2008]
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[Hoekstra & Chapagain, 2008]
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[Hoekstra & Chapagain, 2008]
Food► 1300 kg of grains
(wheat, oats, barley, corn, dry peas, soybean, etc)► 7200 kg of roughages
(pasture, dry hay, silage, etc)
Water► 24000 litres for drinking► 7000 litres for servicing.
The water footprint of a cow
99%
1%
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[Hoekstra & Chapagain, 2008]
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[Hoekstra & Chapagain, 2008]
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[Hoekstra & Chapagain, 2008]
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Industrial systems
Mixed systems
Grazing systems Water footprint: •mostly green•local
Water footprint:•green & blue
•partly imported
Water footprint:•green & blue•local
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[Hoekstra & Chapagain, 2008]
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Water footprint of biofuels from different crops [litre/litre]
[Gerbens-Leenes, Hoekstra & Van der Meer, 2009]
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Water footprintof a consumer
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► the total volume of water appropriated for the production of the goods and services consumed.
► equal to the sum of the water footprints of all goods and services consumed.
► dimensions of a water footprint• volume• where and when• type of water use: green, blue, grey
Water footprint of a consumer
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The total water footprint of a consumer in the UK
► about 3% of your water footprint is at home.
150 litre/day
► about 60 to 65% of your water footprint lies abroad.
► about 97% of your water footprint is ‘invisible’, it is related to the products you buy in the supermarket.
3400 litre/day for agricultural products1100 litre/day for industrial products
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Meat versus vegetarian diet
Meat diet kcal/day litre/kcal litre/day Vegetarian diet
kcal/day litre/kcal litre/day
Industrial countries Animal
origin950 2.5 2375
Animal origin
300 2.5 750
Vegetable origin
2450 0.5 1225Vegetable
origin3100 0.5 1550
Total 3400 3600 Total 3400 2300
Developing countries Animal
origin350 2.5 875
Animal origin
200 2.5 500
Vegetable origin
2350 0.5 1175Vegetable
origin2500 0.5 1250
Total 2700 2050 Total 2700 1750
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Meat versus vegetarian diet
Meat diet kcal/day litre/kcal litre/day Vegetarian diet
kcal/day litre/kcal litre/day
Industrial countries Animal
origin950 2.5 2375
Animal origin
300 2.5 750
Vegetable origin
2450 0.5 1225Vegetable
origin3100 0.5 1550
Total 3400 3600 Total 3400 2300
Developing countries Animal
origin350 2.5 875
Animal origin
200 2.5 500
Vegetable origin
2350 0.5 1175Vegetable
origin2500 0.5 1250
Total 2700 2050 Total 2700 1750
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Meat versus vegetarian diet
Meat diet kcal/day litre/kcal litre/day Vegetarian diet
kcal/day litre/kcal litre/day
Industrial countries Animal
origin950 2.5 2375
Animal origin
300 2.5 750
Vegetable origin
2450 0.5 1225Vegetable
origin3100 0.5 1550
Total 3400 3600 Total 3400 2300
Developing countries Animal
origin350 2.5 875
Animal origin
200 2.5 500
Vegetable origin
2350 0.5 1175Vegetable
origin2500 0.5 1250
Total 2700 2050 Total 2700 1750
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National water footprint accounting
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► total amount of water that is used to produce the goods and services consumed by the inhabitants of the nation.
► two components:• internal water footprint – inside the country.• external water footprint – in other countries.
Water footprint of national consumption
► water footprint of national consumption =water footprint within the nation + virtual water import
– virtual water export
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Consumption
Export
Pro
duct
ion
Impo
rt
Internalwater
footprint
External water
footprint
WF of national
consumpt.
Water usefor export
Virtual water import for re-
export
Virtualwaterexport
+
+
=
=
WFwithinnation
Virtualwaterimport
++
= =
Virtual water
budget
+
+ =
=
National water use accounting framework
The traditionalstatistics on
water use, butthen limited towithdrawals
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Country/region National water footprint (Gm3/year)
from the perspective of
production
from the perspective of consumption
Australia 91 27
Canada 123 63
China 893 883
Egypt 59 70
EU25 559 744
India 1013 987
Japan 54 146
Jordan 1.8 6.3
USA 750 696
[Hoekstra & Chapagain, 2008]
WF of nationalconsumption
WF withina nation
Traditional statisticson water use, butthen restricted towater withdrawal
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Arrows show trade flows >10 Gm3/yr
Regional virtual water balances(only agricultural trade)
[Hoekstra & Chapagain, 2008]
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0
500
1000
1500
2000
2500
3000
Chi
na
Indi
a
Japa
n
Pak
ista
n
Indo
nesi
a
Bra
zil
Mex
ico
Rus
sia
Nig
eria
Thai
land
Italy
US
A
Wat
er fo
otpr
int (
m3/c
ap/y
r)
Domestic water consumption Industrial goods Agricultural goods
Water footprint per capita
Global average water footprint
[Hoekstra & Chapagain, 2008]
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1. Consumption characteristics
Consumption volume Consumption pattern
2. Production circumstances
Climate: evaporative demand at place of production Agricultural practice: water use efficiency
Major determinants of the water footprint of national consumption
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The water footprint of a business
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Water risks for business• Physical risk• Reputational risk• Regulatory risk• Financial risk
Water opportunity for business• frontrunner advantage• corporate image
Corporate social responsibility
Water footprint:why businesses are interested
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Operational water footprint• the direct water use by the producer – for producing,
manufacturing or for supporting activities.
Supply-chain water footprint• the indirect water use in the producer’s supply chain.
Water footprint of a business
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• From operations to supply-chain thinking.
• Shifting focus from water withdrawals to consumptive water use.
• From securing the ‘right to abstract & emit’ to assessing the full range of economic, social and environmental impacts of water use in space and time.
• From meeting emission standards to managing grey water footprint.
Water footprint:what’s new for business
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The water footprint of a consumer
Indirect WF Direct WF
bluewateruse
greywater
Farmer RetailerFood
processer
Virtualwaterflow
Virtualwaterflow
Virtualwaterflow
greenandbluewateruse
bluewateruse
greywater
greywater
Consumer
bluewateruse
greywater
[Hoekstra, 2008]
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The water footprint of a retailer
bluewateruse
greywater
Farmer RetailerFood
processer
Virtualwaterflow
Virtualwaterflow
Virtualwaterflow
greenandbluewateruse
bluewateruse
greywater
greywater
Supply chain WF Operational WF
Consumer
bluewateruse
greywater
End-use WF of a product
[Hoekstra, 2008]
The traditional statisticson corporate water use
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The water footprint of a food processor
bluewateruse
greywater
Farmer RetailerFood
processer
Virtualwaterflow
Virtualwaterflow
Virtualwaterflow
greenandbluewateruse
bluewateruse
greywater
greywater
Supply chain WF Operational WF
Consumer
bluewateruse
greywater
End-use WF of a product
[Hoekstra, 2008]
The traditional statisticson corporate water use
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• total volume of freshwater that is used directly and indirectly to run and support a business.
• temporal and spatial dimension:
when and where was the water used.
• three components:
green: volume of rainwater consumed.
blue: volume of surface or groundwater consumed.
grey : volume of polluted water.
Water footprint of a business
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Operational water footprint Supply-chain water footprint
Water footprint directly associated
with the production of the business’s
product(s)
Overhead water footprint
Water footprint directly associated
with the production of the business
product(s)
Overhead water footprint
Water incorporated into the product
Water consumed or polluted through a washing process
Water thermally polluted through use for cooling
Water consumption or pollution related to water use in kitchens, toilets, cleaning, gardening, or washing working clothes.
Water footprint of product ingredients bought by the company
Water footprint of other items bought by the company for processing their product
Water footprint of infrastructure (construction materials etc.).
Water footprint of materials and energy for general use (office materials, cars and trucks, fuels, electricity, etc.)
Water footprint of a business
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[Hoekstra et al., 2009]
Water footprint
• measures freshwater appropriation
• spatial and temporal dimension
• actual, locally specific values
• always referring to full supply-chain
• focus on reducing own water footprint (water use units are not interchangeable)
Carbon footprint
• measures emission GH-gasses
• no spatial / temporal dimension
• global average values
• supply-chain included only in ‘scope 3 carbon accounting’
• many efforts focused on offsetting (carbon emission units are interchangeable)
Water footprint and carbon footprint are complementary tools.
Water footprint – Carbon footprint
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LCA
• measures overall environmental impact
• no spatial dimension
• weighing water volumes based on impacts
[Hoekstra et al., 2009]
Water footprint
• measures freshwater appropriation
• multi-dimensional (type of water use, location, timing)
• actual water volumes, no weighing
For companies, water footprint assessment and LCA are complementary tools.
• WF assessment is a tool to support formulation of a sustainable water management strategy in operations and supply chain.
• LCA is a tool to compare the overall environmental impact of different products.
WF is a general indicator of water use; application of WF in inventory phase of LCA is one particular application.
Water footprint – Life cycle assessment
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Water footprintsustainability assessment
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Water footprint sustainability assessment
Water footprint accounting
Water footprint response
formulation
Setting goalsand scope
Phase 1 Phase 2 Phase 3 Phase 4
Water footprint assessment
[Hoekstra et al., 2011]
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Water footprint sustainability assessment
Sustainability of the
cumulative
water footprints in
different catchments
Sustainability of theWFs of specific processes
Sustainability of theWFs of specific products
Sustainability Sustainability of the of the
WF of a WF of a company consumer
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Identification and quantification of the primary impacts in
the hotspots
Identification of hotspots (specific sub-catchments,
periods of the year)
Identification and quantification of the secondary impacts
in the hotspots
Identification of the (environmental,
social and economic)
sustainability criteria
Step 1 Step 2 Step 3 Step 4
Assessment of the sustainability of the water footprint within a catchment
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Environmental• Environmental flow requirements• Environmental green water requirements• Ambient water quality standards
Social• Basic human needs – min. drink-water, food security, employm.• Rules of fairness – fair allocation, water user & water polluter
principle
Economic• Efficient allocation and use of water
Step 1 - Sustainability criteria
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Step 2 - Hotspots
Environmental sustainability criteria:
• Green water footprint < available green water• Blue water footprint < available blue water• Grey water footprint < available assimilation capacity
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0
10
20
30
40
50
60
70
80
90
100
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec
Environmental f low requirement, met
Environmental f low requirement, not met
Blue w ater availability
Blue w ater footprint
Blue w ater availability
Runoff (under undeveloped conditions)
m3/s
Runoff
Environmentalflow requirement
[ , ][ , ]
[ , ]blue
blueblue
WF x tWS x t
WA x t
Blue water scarcity:
Environmental sustainability criterion:Blue water footprint < blue water availability
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1. Catchment level
2. Monthly basis
3. Generic rule of thumb:
EFR = 80% of natural runoff, on a monthly basis.
4. Use data from generic global methodology, but replace when better studies give better local estimates
Environmental flow requirements
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Pollution exceeding the assimilative capacity of the environment
Grey water footprint < runoffAssimilative capacity
not fully used
Full assimilative capacity of the river
used
Environmental sustainability criterion:Grey water footprint < available assimilation capacity
Grey water footprint > runoff
Grey water footprint = runoff
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Primary impacts• Changes to hydrology• Changes to water quality
Secondary impacts• Effects on abundance of certain species• Effects on biodiversity• Effects on human health• Effects on employment• Effects on distribution of welfare• Effects on income in different sectors of economy
Steps 3-4 Primary and secondary impacts
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Example of how to assess the extent to which the water footprint of a product is sustainable
Data derived from the product water
footprint account
Check
geographic
sustainability
of the
process
Check
sustainability
of the process
in itself Conclusion
Check
relevance
from product
perspective
Check
whether
response is
required
Process
step
Catchment
in which the
process is
located
Water
footprint (m3
per unit of
final product)
Is the
catchment a
hotspot?
Can the water
footprint be
reduced or
avoided
altogether?
Is this a
sustainable
component in
the product
water
footprint?
Fraction of
the product
water
footprint that
is not
sustainable
Share above
threshold of
one percent
Is this a
priority
component?
1A 45 no no yes yes no
B 35 yes yes no 35% yes yes
2 A 10 no no yes yes no
3
C 6 no no yes yes no
D 2 yes no no 2% yes yes
E 1.1 no yes no 1.1% yes yes
4 F 0.5 yes no no 0.5% no no
5 A 0.3 no no yes no no
6 A 0.1 no yes no 0.1% no no
total 10038.7%
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Data derived from the product water
footprint account
Check
geographic
sustainability
of the
process
Check
sustainability
of the process
in itself Conclusion
Check
relevance
from product
perspective
Check
whether
response is
required
Process
step
Catchment
in which the
process is
located
Water
footprint (m3
per unit of
final product)
Is the
catchment a
hotspot?
Can the water
footprint be
reduced or
avoided
altogether?
Is this a
sustainable
component in
the product
water
footprint?
Fraction of
the product
water
footprint that
is not
sustainable
Share above
threshold of
one percent
Is this a
priority
component?
1A 45 no no yes yes no
B 35 yes yes no 35% yes yes
2 A 10 no no yes yes no
3
C 6 no no yes yes no
D 2 yes no no 2% yes yes
E 1.1 no yes no 1.1% yes yes
4 F 0.5 yes no no 0.5% no no
5 A 0.3 no no yes no no
6 A 0.1 no yes no 0.1% no no
total 10038.7%
Example of how to assess the extent to which the water footprint of a product is sustainable
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Data derived from the product water
footprint account
Check
geographic
sustainability
of the
process
Check
sustainability
of the process
in itself Conclusion
Check
relevance
from product
perspective
Check
whether
response is
required
Process
step
Catchment
in which the
process is
located
Water
footprint (m3
per unit of
final product)
Is the
catchment a
hotspot?
Can the water
footprint be
reduced or
avoided
altogether?
Is this a
sustainable
component in
the product
water
footprint?
Fraction of
the product
water
footprint that
is not
sustainable
Share above
threshold of
one percent
Is this a
priority
component?
1A 45 no no yes yes no
B 35 yes yes no 35% yes yes
2 A 10 no no yes yes no
3
C 6 no no yes yes no
D 2 yes no no 2% yes yes
E 1.1 no yes no 1.1% yes yes
4 F 0.5 yes no no 0.5% no no
5 A 0.3 no no yes no no
6 A 0.1 no yes no 0.1% no no
total 10038.7%
Example of how to assess the extent to which the water footprint of a product is sustainable
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Data derived from the product water
footprint account
Check
geographic
sustainability
of the
process
Check
sustainability
of the process
in itself Conclusion
Check
relevance
from product
perspective
Check
whether
response is
required
Process
step
Catchment
in which the
process is
located
Water
footprint (m3
per unit of
final product)
Is the
catchment a
hotspot?
Can the water
footprint be
reduced or
avoided
altogether?
Is this a
sustainable
component in
the product
water
footprint?
Fraction of
the product
water
footprint that
is not
sustainable
Share above
threshold of
one percent
Is this a
priority
component?
1A 45 no no yes yes no
B 35 yes yes no 35% yes yes
2 A 10 no no yes yes no
3
C 6 no no yes yes no
D 2 yes no no 2% yes yes
E 1.1 no yes no 1.1% yes yes
4 F 0.5 yes no no 0.5% no no
5 A 0.3 no no yes no no
6 A 0.1 no yes no 0.1% no no
total 10038.7%
Example of how to assess the extent to which the water footprint of a product is sustainable
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Global map of where
a product or corporate water footprint is located
Overlay
Global
hotspot map
Unsustainable components of the product/corporate
water footprint
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Main producing regions
Producing countries
Global water footprint of a businesslocated in the Netherlands
Water stress(withdrawal-to-availability)
< 0.3
0.3 - 0.4
0.4 - 0.5
0.5 - 0.6
0.6 - 0.7
0.7 - 0.8
0.8 - 0.9
0.9 - 1.0
> 1.0
Hotspot map
Water stress(withdrawal-to-availability)
< 0.3
0.3 - 0.4
0.4 - 0.5
0.5 - 0.6
0.6 - 0.7
0.7 - 0.8
0.8 - 0.9
0.9 - 1.0
> 1.0
Main producing regions
Hotspots
Unsustainable components of the business water footprint
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Water footprint response
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Consumers or consumer or environmental organizations push businesses and governments to address water use and impacts along supply chains.
Some businesses act voluntarily in an early stage, driven by consumers or investors.
Governments promote businesses in an early phase and implement regulations in a later phase.
Governments, companies, consultants and accountants use same standard definitions and calculation methods.
International cooperation, through UN and other institutions.
Shared responsibility and an incremental approach
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Agriculture Industry
Green WF Decrease green water footprint (m3/ton) by
increasing green water productivity (ton/m3) in
both rain-fed and irrigated agriculture.
Increase total production from rain-fed
agriculture.
Not relevant.
Blue WF Decrease blue water footprint (m3/ton) by
increasing blue water productivity (ton/m3) in
irrigated agriculture. Decrease ratio blue/green
water footprint. Decrease global blue water
footprint (e.g. by 50%).
Zero blue water footprint: no losses
through evaporation – full recycling –
only blue water footprint related to the
incorporation of water into a product
cannot be avoided.
Grey WF Reduced use of artificial fertilisers and
pesticides; more effective application. Grey
water footprint can go to zero through organic
farming.
Zero grey water footprint: no pollution –
full recycling, recapturing heat from
heated effluents and treatment of
remaining return flows.
The ultimate perspective
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Priorities in water footprint reduction
Non-hotspots Hotspots
Little reduction potential 0 +
Large reduction potential + ++
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Reduce:
• Reduce by avoid: do not undertake water-using activities altogether.
• Reduce by improved production: replace one technique by another
technique that results in a lower or even zero water footprint
Offset:
Compensate the residual water footprint by making a reasonable investment
in establishing or supporting projects that aim at a sustainable, equitable
and efficient use of water in the catchment where the residual water
footprint is located.
Water footprint reduction and offsetting
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Stop waste of ‘blue water’
Towards precision irrigation
Full water recyclingin industries
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Increase water productivity in
rain-fedagriculture
Make better use of ‘green water’
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Grey water footprint zero
Towards organic farming Towards zero emission
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Reducing humanity’s water footprint – Consumers
Reduction of the direct water footprint: water saving toilet, shower-head, etc.
Reduction of the indirect water footprint: substitution of a consumer product that has a large water footprint
by a different type of product that has a smaller water footprint; substitution of a consumer product that has a large water footprint
by the same product that is derived from another source with smaller water footprint.
Ask product transparency from businesses and regulation from governments
“Save water in the supermarket”
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Transparency along the supply chain
Feed crop cultivation
Indirect water
footprint
Direct water
footprint
Livestock farming
Direct water
footprint
Indirect water
footprintFood
processor
Direct water
footprint
Indirect water
footprint
Retailer
Direct water
footprint
Indirect water
footprint
Consumer
Direct water
footprint
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• Shared terminology & calculation standards
• Product transparency
– water footprint reporting / disclosure
– labelling of products
– certification of businesses
• Quantitative footprint reduction targets
– benchmarking
Reducing humanity’s water footprint – Companies
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Reduction of the operational water footprint:
• water saving in own operations.
Reduction of the supply-chain water footprint:
• influencing suppliers;
• changing to other suppliers;
• transform business model in order to incorporate or better control supply chains.
Reducing humanity’s water footprint – Companies
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Reducing humanity’s water footprint – Investors
[Morrison et al., 2009; Pegram et al, 2009; Hoekstra et al., 2011]
Reduce risk of investments:
• physical risk formed by water shortages or pollution.
• risk of damaged corporate image
• regulatory risk
• financial risk
Demand accounting and substantiated quantitative water footprint reduction targets from companies.
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Embed water footprint assessment in national water policy making.
Promote coherence between water and other governmental policies: environmental, agricultural, energy, trade, foreign policy.
Reduce the own organizational water footprint: reduce the water footprint of public services.
Promote product transparency support or force businesses to make annual water footprint accounts and to
implement water footprint reduction measures. e.g. through promoting a water label for water-intensive products; e.g. through water-certification of businesses.
Reducing humanity’s water footprint – Government
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International cooperation
international protocol on water pricing minimum water rights tradable water footprint permits water-labelling of water-intensive products water-certification of industries and retailers international nutrient housekeeping shared guidelines on water-neutrality for businesses
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The Water Footprint Network
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Mission: Promoting sustainable, equitable and efficient water use through development of shared standards on water footprint accounting and guidelines for the reduction and offsetting of impacts of water footprints.
Network: bringing together expertise from academia, businesses, civil society, governments and international organisations.
The Water Footprint Network
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Founding partners (16 October 2008):
International Finance Corporation (World Bank Group)
Netherlands Water Partnership
UNESCO-IHE Institute for Water Education
University of Twente
Water Neutral Foundation
World Business Council for Sustainable Development
WWF-the global conservation organization
The Water Footprint Network
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Current partners
partners from six continents
• universities & research institutions
• governmental institutions
• non-governmental organisations
• large companies
• medium and small companies
• branche organisations
• consultants
• accountants
• international institutions
The Water Footprint Network
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Technical work programme Water footprint assessment methodology Data and statistics Tools and materials, incl. Water footprint assessment tool
Policy work programme National, regional, local & river-basin WF pilot projects Corporate and sector WF pilot projects Product WF studies Incorporation of the WF in reporting, standards, certification and
regulations for the corporate sector Integration of WF data and statistics into existing global databases
Work programme Water Footprint Network (1)
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Training Face-to-face training courses E-learning training course
Partner forum Annual face-to-face forum Stockholm Online partner forum Webinars Working groups
Website Water footprint calculator Statistics Publications
Work programme Water Footprint Network (2)
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The Water Footprint Assessment Manual
Manual Nov. 2009 Manual Feb. 2011
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Definitions
and method
Data & models
Practice
From definitions and method to practice
WF Assessment Manual
WF Assessment Tool
Databasesand models
Sector-specific guidelines on the
application of the WF
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