nvironmentali mpacts ofw ater c onsumption ing …
TRANSCRIPT
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ENVIRONMENTAL IMPACTS OF WATER CONSUMPTION IN GLOBAL CROP PRODUCTION
Stephan Pfister, Peter Bayer, AnneAe Koehler, Stefanie Hellweg
ETH Zurich, InsMtute for Environmental Engineering, Ecological Systems Design Group
LCA Discussion Forum
Lausanne, 21 June 2011
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MoMvaMon
• Agriculture is globally the most important sector concerning water consump5on
• LCA increasingly used in decision making, but so far o<en neglect water-‐consump5on
à Need for comprehensive tools to assess and improve the environmental impacts of agricultural products
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Resource ExtracMon
?
Use
Recycling Reuse
Disposal
ProducMon ?
?
Resources
Emissions
Global value chains
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Inventory analysis: Modelling land use and water consumpMon of crop produMon (160 crops)
• High spa5al resolu5on (~10 km resolu5on) – Crop produc5on in 2000 (Monfreda et al. 2008)
• Yield and crop cul5va5on data based on sta5s5cs and remote sensing
– Water consump5on: • FAO approach and irriga5on maps
– Land use: • based on yields and growth periods
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Detailed results available for 160 individual crops: Pfister et al. (2011) Environmental impacts of water use in global crop
producMon: hotspots and trade-‐offs with land use. ES&T, online
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LCIA: Water stress index (WSI)
à Takes into account water availability, use, and seasonal/annual variaMon in precipitaMon .
Pfister S, Köhler A, Hellweg S, ES&T 43, 4098 – 4104, 2009 (based on data from Alcamo et al.)
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LCIA: Land stress index (LSI)
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LCI results: IrrigaMon water consumpMon of wheat culMvaMon
0 0-‐100 100-‐200 200-‐300 300-‐400 400-‐500 500-‐700 700-‐1000 1000-‐2000 >2000
m3 / ton
[Volume/output]
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LCIA results: Water deprivaMon from wheat culMvaMon
0 0-‐100 100-‐200 200-‐300 300-‐400 400-‐500 500-‐700 700-‐1000 1000-‐2000 >2000
m3 / ton
[WSI-‐weighted volume/output]
Ph.D. S. Pfister
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Ph.D. S. Pfister
Tradeoff between land and water impacts of wheat culMvaMon
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SituaMon in the year 2000
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SituaMon in the year 2000 Tradeoff between Water and Land Use
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Outlook „myEcosystem“
12 Ph.D. F. Verones, L. deBaan, M. Curran
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Future scenarios
Ph.D. S. Pfister
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Future scenarios
2000 2050 +50%
IPCC A1B scenario: 9 billion people
Ph.D. S. Pfister
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Minimal land use
Minimal water consumpMon
Scenarios 2050
• 60% addi5onal food energy supply – Intensifica5on: Full irrigaMon and fer5liza5on & 50% food waste reducMon
– Expansion on suitable area for rainfed agriculture: • Maize and wheat (Fischer et al. 2000)
• Expansion on pasture
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Minimal land use
Minimal water consumpMon
Scenarios 2050
• 60% addi5onal food energy supply – Intensifica5on: Full irrigaMon and fer5liza5on & 50% food waste reducMon
– Expansion on suitable area for rainfed agriculture: • Maize and wheat (Fischer et al. 2000)
• Expansion on pasture
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Results irrigaMon water consumpMon
Strategies: – Intensifica5on & waste reduc5on
– Expansion on pastures
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IrrigaMon
IrrigaMon
Irriga5on: + 1125 km3 (64%)
Irriga5on: +169 km3 (10%)
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Expansion: Land stress
• Mainly in Africa (ca. 2/3) • followed by South America (ca. 1/4)
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Conclusions
• Pressure on water and land resources is already high in some areas and will be amplified in the future
• Methods for spa5ally resolved inventory and impact assessment are becoming available for water and land use à facilitates LCA as decision-‐support tool for product-‐related decisions of retailers, producers, consumers
• Interna5onal coopera5on is necessary to minimize global environmental impacts
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BACKUP SLIDES
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Results scenarios Scenario 1 (efficient
intensification)
Scenario 2 (expansion on
pastures)
Scenario 3 (rainfed
expansion)
Scenario 4 (expansion and intensification)
Total Water (km3) 1’203 (+22%) 1’088 (+20%) 1’077 (+20%) 2291 (+42%) Irrigation Water (km3) 1’125 (+64%) 169 (+10%) 142 (+8%) 1’294 (+73%) Average WSI 0.569 0.484 0.479 0.559
Land stress (1000 km2*yr) none 552 (+14%) 534 (+14%) 552 (+14%)
Irrigation water land-stress equivalent (1000 km2*yr)
450 (+64%) 68 (+10%) 57 (+8%) 518 (+73%)
Total land-stress equivalent (land & water) (1000 km2*yr)
450 (+10%) 620 (+14%) 591 (+14%) 1070 (+24%)
Total land-stress equivalent / edible energy produced (m2*yr / 1000 kcal)
0.28 (-13%) 0.23 (-29%) 0.23 (-29%) 0.21 (-33%)
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GIS IntegraMon in a pilot solware: example of strawberry producMon in Spain
Kestenholz 2008
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Midpoint CF: Water Stress Index (WSI)
• Includes: – Withdrawal to availability (WTA)
– Variability in precipita5on (VF) – Flow regula5on (highly regulated = SRF)
• Index following logis5c func5on:
⎧ ×⎪= ⎨
×⎪⎩
* -
VF WTA for SRFWTAVF WTA for non SRF
( )− ⋅=
+ −*6.4 1
0.01
11 1WTA
WSIe
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Water stress index (WSI)
WSI
WTA*
“Open scale”
Extreme
Severe
Moderate
No
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Impacts on resources
• Deple5on of water stocks: overuse
• Desalina5on as backup technology
>⎧= ⎨
≤⎩
- 1
,
1 0 1
WTAWTA
depletion i
for WTAF
for WTA
Δ = ⋅ ⋅depletion surplus consumptiveRD F MJ WU
Pfister, Koehler & Hellweg (2009), ES&T 43(11): 4098–4104
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Aggregated damage factors For comparing overall relevance of water consump5on in “ecoindicator 99” method
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Damage factors
Impacts on human health
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Damage factors
Impacts on human health
Impacts on ecosystem quality
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Damage factors
Impacts on human health
Impacts on ecosystem quality
Impacts on resources
Pfister S, Köhler A, Hellweg S, ES&T 43, 4098 – 4104, 2009
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ApplicaMon to agriculture: Inventory on high spaMal resoluMon
• Combining global data sets in GIS – Climate data
– Official sta5s5cs
– Remote sensing data
• Calcula5on of irriga5on water requirements (IWR) – FAO approach (on 10km*10km resolu5on)
• Combina5on with regional characteriza5on factors – E.g. midpoint: Water stress index (WSI; Pfister et al. 2009)
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Trade-‐off water -‐ land
Water footprint (m3 / kg)
Land
footprint (m
2 yr
/ kg)
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Pasture food losses
• 44% of meat energy from pasture/grassland/rangeland
• 6% of pasture / natural land change
pasture output change (NPP0 weighted)
animal feed change (43.9 % pasture)
change food energy (15.1% animal products)
sc2 -‐6.1% -‐2.7% -‐0.4% SC3 -‐3.7% -‐1.6% -‐0.2%