1. Marty Matlock, Ph.D., P.E., C.S.E. Professor and Area Director, Center for Agricultural and Rural Sustainability Ecological Engineering Group Biological and Agricultural Engineering Department University of Arkansas mmatlock@uark.edu Global Agriculture and Water Use

2. Agricultural use accounts for over 70 percent of all human use of water. Agricultural water use is predominantly from rainfall. Water scarcity is experienced by humans as famine. Demand for food, feed, fiber and fuel from agriculture will double by 2050. We have to meet that need without one drop more of water, one hectare more of land. We must freeze the footprint of agriculture Global Agricultural Water Use

3. World Wildlife Fund http://www.wwf.org/ Encyclopedia of Earth http://www.eoearth.org/ World Resources Institute http://www.wri.org/ The Millennium Ecosystem Assessment Report http://www.millenniumassessment.org/ Sources of Information

4. Everything is Connected Source: Ricklefs Economy of Nature

5. Everything is changing

6. We’re all in this together http://media.photobucket.com/image/poverty/chenpn/thegivinghands/poverty1.jpg

7. Global Freshwater Resources, in KM 3

8. Water Use by Sector

9. Water Resource Use by Sector

11. Availability of Fresh Water

12. Water Resource Scarcity

13. Water Resources and Prosperity –5 to possibly 25% of global freshwater use exceeds long-term accessible supplies (low to medium certainty) –15 - 35% of irrigation withdrawals exceed supply rates and are therefore unsustainable (low to medium certainty)

14. Water Resources Per Capita

15. Sustainability 2050: The Challenge

18. What we do in the next 10 years will shape Earth and Humanity for the next 100 years

19. Source: Population Reference Bureau, 2005 World Population Data Sheet. Projected Population Change by Country Percent Population Change, 2005-2050

20. Billions Less Developed Regions More Developed Regions Source: United Nations, World Population Prospects: The 2004 Revision (medium scenario), 2005. Growth in More versus Less Developed Countries

21. Association Between Fertility and Education Percent of Girls Enrolled in Secondary School Source: Population Reference Bureau, Population & Economic Development Linkages 2007 Data Sheet. Total Fertility Rate Palestinian Territory Uruguay Morocco

22. Association Between Fertility and Poverty Percent of Population Living on <$2 per Day Source: Population Reference Bureau, Population & Economic Development Linkages 2007 Data Sheet. Total Fertility Rate Niger Jordan Mongolia

23. Sustainability 2050: The Challenge

24. Ecological Services

25. Millions Source: United Nations, World Urbanization Prospects: The 2003 Revision (medium scenario), 2004. 1950 2000 2015 Largest Cities, Worldwide

26. The largest cities in the world are growing rapidly, and they are shifting from the more developed regions to the less developed regions. In 1950, New York was the largest city in the world, with a population of about 12 million. By 2015, the largest city worldwide is projected to be Tokyo, with triple this population size: 36 million. Largest Cities Worldwide

27. Published by AAAS J. A. Foley et al., Science 309, 570 -574 (2005) Worldwide extent of human land-use and land-cover change

28. Human Activities Dominate Earth Croplands and pastures are the largest terrestrial biome, occupying over 40% of Earth’s land surface

29. Meeting Food Needs by 2050 Jason Clay The role of research

30. Water Footprint Concepts Water footprint is the amount of water required to produce a unit of product. 1 Kg Corn requires 900 L water. 30

31. Water Footprint Concepts Blue water is water that is collected for use (river, reservoir, groundwater) Green water is soil moisture from precipitation Grey water is water to dilute pollution concentration 31

32. 2000 Corn Yield Data (SAGE)

33. Blue vs Green Water from Water Balance Model

35. Water Stress Index 35 A WSI of 0.5 is the threshold between moderate and severe water stress. The WSI the ratio of water use to availability with a weighted factor dependent on watershed variations in annual water availability. Pfister, S; Koehler, A; Hellweg, S. Assessing the Environmental Impacts of Freshwater Consumption in LCA. Environ. Sci. Technol. 2009, 43, 4098-4104 The above represents climate data from 1961-1990

36. Water Use Impacts on Ecosystem Quality 36 In places where plant growth is water-limited, withdrawals of blue water may eventually reduce the availability of green water and thus diminish vegetation and plant diversity. Ecosystem Quality (EQ) is represented as the area-time ecosystem damage as a function of water use availability and potentially disappeared fraction of species. Pfister, S; Koehler, A; Hellweg, S. Assessing the Environmental Impacts of Freshwater Consumption in LCA. Environ. Sci. Technol. 2009, 43, 4098-4104

37. Water Use Impacts on Human Health 37 The damage induced by water consumption in a watershed or country is measured in disability adjusted life years (DALY) as outlined in the Eco-Indicator 99 method. The impact on human health is a function of expected specific damage per unit of water consumed Pfister, S; Koehler, A; Hellweg, S. Assessing the Environmental Impacts of Freshwater Consumption in LCA. Environ. Sci. Technol. 2009, 43, 4098-4104

39. Agricultural use accounts for over 70 percent of all human use of water. Agricultural water use is predominantly from rainfall. Water scarcity is experienced by humans as famine. Demand for food, feed, fiber and fuel from agriculture will double by 2050. We have to meet that need without one drop more of water, one hectare more of land. We must freeze the footprint of agriculture Global Agricultural Water Use