Abstract
One of the most pressing global issues currently facing mankind is the increase in world population and its impact on the availability of freshwater. Recent estimates of water stocks and flows through the world's hydrologic cycle and their spatiotemporal variability illustrate the nature of current and projected water disparities throughout the world. As all such problems manifest themselves at smaller scales, a major challenge in freshwater assessments is how to handle this on different geographical scales. Increasing use of water is creating water shortages in many countries that are projected to have significant population increases in the next 25 years. Humankind is projected to appropriate from 70% to 90% of all accessible freshwater by 2025. Agriculture is the dominant component of human water use, accounting for almost 70% of all water withdrawals. Hence, many of the solutions to water-related food and environmental security come from within agriculture by increasing the efficiency and productivity of water use. Many factors significantly impact the increasing water demand, including population growth, economic growth, technological development, land use and urbanization, rate of environmental degradation, government programs, climate change, and others. Demand management, not increasing supply availability, is the realistic way forward. Although, thanks to market forces, the threatened exhaustion of nonrenewable resources has not happened, renewable resources, such as freshwater, remain problematic because they are vulnerable to human overuse and pollution. Climate change adds further risks and uncertainties to the global picture requiring the adoption of adaptive management in water resources based on monitoring and reevaluation. Although climate change may be perceived as a long-term problem, it needs to be addressed now because decisions today will affect society's ability to adapt to increasing variability in tomorrow's climate. If we are to balance freshwater supply with demand, and also protect the integrity of aquatic ecosystems, a fundamental change in current wasteful patterns of production and consumption is needed. Recognition of the links between rapidly growing populations and shrinking freshwater supplies is the essential first step in making water use sustainable.
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REFERENCES
Bergkamp, G., Orlando, B., and Burton, I., 2003, Change. Adaptation of water management to climate change: IUCN-The World Conservation Union, Gland, Switzerland and Cambridge, 53p.
Chistopherson, R. W., 2002, Geosystems: an introduction to physical geography (4th edn.): Prentice Hall, Upper Saddle River, New Jersey, 626p. plus appendices.
Clarke, R., 1991, Water: the international crisis: Earthscan Publ. Ltd, London, 193p.
Connor, R., 1999, North America's freshwater resources: emerging trends and issues: Comm. Environmental Cooperation, Montreal, Canada, 30p.
Dinar, A., Rosegrant, M. W., and Meinzer-Dick, R., 1997, Water allocation mechanisms-principles and examples: Policy Research Working Paper no. WPS 1779, The World Bank Group, 40p.
Ehrlich, P. R., and Holden, J. P., 1971, Impact of population growth: Science, v. 171, no. 3977, p. 1212-1217.
Falkenmark, M., 1990, Population growth and water supplies: an emerging crisis: People 17, no. 1, p. 18-20.
Falkenmark, M., and Widstrand, C., 1992, Population and water resources: a delicate balance: Population Reference Bureau, Population Bulletin, 43, no. 3, p. 1-36.
FAO (Food and Agricultural Organization), 1995, Water develoiaent for food security: Rome Italy, 39p.
FAO (Food and Agricultural Organization), 2001, AQUASTAT-FAO's information system on water and agriculture: http://www.fao.org/ag/agl/aglw/aquastat/background/index.stm
FAO (Food and Agricultural Organization), 2002, Crops and drops: making the best use of land and water: Rome, Italy, 24p.
FAO (Food and Agricultual Organization), 2003, Unlocking the water potential for agriculture: Rome, Italy, 62p.
Fischer, G. T., Shah, M., and van Velthuizen, H., 2002, Climate change and agricultural vulnerability: IIASA, Vienna, 152p.
Gardner-Outlaw, T., and Engelman, R., 1997, Sustaining water, easing scarcity: a second update: Population Action Intern., Washington, D.C., 20p.
Gleick, P. H., 1993, An introduction to global freshwater issues, in Gleick, P.H.,ed., Water in crisis, a guide to the world's fresh water resources: Oxford Univ. Press, New York, p. 3-12.
Gleick, P. H., 2000, How much water is there and whose is it?, in Gleick, P. H.,ed., The world's water 2000-2001: Island Press, Washington, D.C., p. 19-38.
GWP (Global Water Partnership), 2001, Framework for action: Stocholm, Sweden, 111p.
Groombridge, B., and Jenkins, M., 1998, Freshwater biodiversity: a preliminary assessment: World Conservation Monitoring Center (UNEP-WCMC), World Conservation Press, Cambridge, 104p.
Harrison, P., and Pearce, F., 2001, AAAS atlas of population and environment (Markham, V. D.,ed.): Am. Asso. Adv. Science and Univ. California Press, 215p.
Hellegers, P. J. G. J., 2002, Treating water in irrigated agriculture as an economic good: Proc. Conf. Irrigation Water Policies, Agadir, Morocco, 14p.
Hinrichsen, D., and Robey, B., 2000, Population and the environment: the global challenge: Population Repts., Ser. M, No. 15, Johns Hopkins Univ. Sch. Public Health, 40p.
Hinrichsen, D., Robey, B., and Upadhyay, U. D., 1998, Solutions for a water-short world: Population Repts., Ser. M, No. 14, John Hopkins Sch. Public Health, 31p.
IPCC (Intergovernmental Panel on Climate Change), 2001, Climate change 2001: the scientific basis: Contr. Working Group I, Third Assessment Rept., IPCC, Geneva, 881p.
IWMI (International Water Management Institute), 2000, World water and climate atlas: http://www.iwmi.cgiar.org/Watlas/atlas.htm.
Jackson, R. B., Carpenter, S. R., Dahm, C. N., McKnight, D. M., Neiman, R. J., Postel, S. L., and Running, S. W., 2001, Water in a changing world: Ecological Applications, v. 11, no. 4, p. 1027-1045.
Keller, R., 1984, The World's freshwater: yesterday-today-tomorrow: Applied Geography and Develoiaent, v. 24, p. 7-23.
Lanfear, K. J., and Hirsch, R. M., 1999, USGS study reveals a decline in long-record stream gauges: AGU EOS Trans. v. 80, no. 50, p. 605-607.
Lundqvist, J., and Gleick, P. H., 2000, Sustaining our waters into the 21st century: http://www.earthscape.org/r1/luj01/.
NCDC (National Climatic Data Center), 2004, Climate of 2003-annual review: http://www.ncdc.noaa.gov/oa/climate/research/2003/ann/global.html.
Postel, S. L., Daily, G. C., and Ehrlich, P. R., 1996, Human appropriation of renewable fresh water: Science, v. 271, no. 5250, p. 785-788.
Renault, D., and Wallender, W. W., 2000, Nutritional water productivity and diets: Agricultural Water Management, v. 45, p. 275-296.
Rijsberman, F. R., and Molden, D., 2001, Balancing water uses: water for food and water for nature: thematic background paper: Secretariat Intern. Conf. on Freshwater-Bonn, Germany, 18p.
Savenije, H., and van der Zaag, P., 2002, Water as an economic good and demand management: Paradigms with pitfalls: IWRA Water Intern., v. 27, no. 1, p. 98-104.
Shah, T., Molden, D., Sakthivadivel, R., and Seckler, D., 2000, The global groundwater situation: overview of opportunities and challenges: Intern. Water Management Inst., Colombo, Sri Lanka, 19p.
Shiklomanov, I. A., 1993, World fresh water resources, in Gleick, P. H.,ed., Water in crisis: a guide to the world's fresh water resources: Oxford Univ. Press, New York, p. 13-24.
Shiklomanov, I. A., 1998, A new appraisal and assessment for the 21st century: http://espejo.unesco.org.uy/summary/html/summary.html.
Shiklomanov, I. A., 2000, Appraisal and assessment of world water resources: Water Intern. v. 25, no. 1, p. 11-32.
Sophocleous, M. A., 2003, Environmental implications of intensive groundwater use with special regard to streams and wetlands, in Custodio, E., and Llamas, R., eds., Groundwater intensive use: challenges and opportunities: A. A. Balkema Publi., Lisse, The Netherlands, p. 93-112.
Sophocleous, M. A., 2004, Climate change-Why should water professionals care? Ground Water, in press.
Toepfer, K., 1998, Editorial. Our Planet: UNEP magazine for environmentally sustainable develoiaent, Issue on Freshwater, http://www.ourplanet.com.
UNDESA (United Nations Department of Economic and Social Affairs), 2002, Global challenge, global opportunity: trends in sustainable develoiaent: Johannesburg Summit 2002, Johannesburg, South Africa, 21p.
UNEP (United Nations Environment Program), Global Environmental Outlook (GEO) 3, 2002a, Synthesis GEO-3. Past, present and future perspectives, 426p.
UNEP, 2002b, Vital water graphics. An overview of the state of the world's fresh and marine waters: http://www.unep.org/vitalwater/freshwater.htm.
UN WWDR (United Nations World Water Develoiaent Report), 2003, Water for people, water for life: executive summary: UNESCO Publ., Paris, France, 34p.
USGS (U.S. Geological Survey), 1999, Streamflow information for the next century. A plan for the National Streamflow Information Program of the USGS: U.S. Geol. Survey, Open-File Rept. 99-456,13 p.
Vörösmarty, C. J., 2002, Global water assessment and potential contributions from Earth systems science: Aquatic Sciences, v. 64, p. 328-351.
WCD (World Commission on Dams), 2000, Dams and develoiaent: a new framework for decision-making: Earthscan, London, 404p.
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Sophocleous, M. Global and Regional Water Availability and Demand: Prospects for the Future. Natural Resources Research 13, 61–75 (2004). https://doi.org/10.1023/B:NARR.0000032644.16734.f5
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DOI: https://doi.org/10.1023/B:NARR.0000032644.16734.f5