Warianty tytułu
Języki publikacji
Abstrakty
It is widely recognized that China is facing the dual challenge of food scarcity and water shortage. A large amount of water is to be demanded for the country’s huge population and rapid economic growth. The agricultural water footprint (AWF) proposes a new approach to indicate the interaction between food consumption and water utilization. This paper aims to quantify a long-time series of China’s AWF, map its variation trend, and assess its potential influence. The findings show that the total agricultural water footprint (TAWF) has increased from 7,593 km³ in 1990 to 10,929 km³ in 2011 due to increases in population and in per capita agricultural water footprint (CAWF). Over the past few years, China has also held an increasing external AWF volume, which climbed up to nearly 10% of the TAWF respectively in 2009, 2010, and 2011. The animal WF proportion of a single urban resident was much higher than that of a rural one because of their different consumption patterns, but neither of their proportions varied significantly over the same period of time. China’s CAWF increased over time and held a multi-year average value of 741 m³ ·cap⁻¹·y⁻¹. The results suggest that CAWF stayed linear positively related to the urban population proportion (UPP) during the study period and that urbanization proves to be the dominant driving force to the water requirement for food consumption augmentation. Considering the irresistible economic growth and urbanization, China should take active measures to cope with troubles potentially brought by the increase in AWF and water dependency degree (WDD). Suggestions with regard to how to guarantee China’s food and water resource security are raised in this paper.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Numer
Opis fizyczny
p.9-18,fig.,ref.
Twórcy
autor
- College of Water Resources and Architectural Engineering, Northwest A and F University, China
- Institute of Water - Saving Agriculture in Arid regions of China, Northwest A and F University, China
autor
- College of Water Resources and Architectural Engineering, Northwest A and F University, China
- Institute of Water - Saving Agriculture in Arid regions of China, Northwest A and F University, China
- National Engineering Research Center for Water - Saving Irrigation at Yangling, China
autor
- College of Water Resources and Architectural Engineering, Northwest A and F University, China
- Institute of Water - Saving Agriculture in Arid regions of China, Northwest A and F University, China
autor
- Institute of Water - Saving Agriculture in Arid regions of China, Northwest A and F University, China
- National Engineering Research Center for Water - Saving Irrigation at Yangling, China
Bibliografia
- 1. MWR-The Ministry of Water Resources of the People's Republic of China (2012) China water resources bulletin 2011. China Water & Power Press, Beijing.
- 2. WU P.T., JIN J.M., ZHAO X.N. Impact of climate change and irrigation technology advancement on agricultural water use in China. Climatic Change 100, (3-4), 797, 2010.
- 3. LIU J., SAVENIJE H.H.G. Effect of food consumption patterns on water requirement. Hydrol. Earth Syst. Sci. 12, 887 2008.
- 4. VELAZQUEZ E., MADRID C., BELTRAN M.J. Rethinking the concepts of virtual water and water footprint in relation to the production-consumption binomial and the water-energy nexus. Water Resour Manage 25, (2), 743, 2011.
- 5. ERCIN A.E., ALDAYA M.M., HOEKSTRA A.Y. Corporate water footprint accounting and impact assessment: the case of the water footprint of a sugar-containing carbonated beverage. Water Resour Manage 25, (2), 721, 2011.
- 6. ALDAYA M.M., MARTINEZ S.P., LLAMAS M.R. Incorporating the Water Footprint and Virtual Water into Policy: Reflections from the Mancha Occidental Region, Spain. Water Resour Manage 24, (5), 941, 2010.
- 7. VAN O.P.R., HOEKSTRA A.Y. Towards quantification of the water footprint of paper: a first estimate of its consumptive component Water Resour Manage 26, (3), 733, 2012.
- 8. BULSINK F., HOEKSTRA A.Y., BOOIJ M.J. The water footprint of Indonesian provinces related to the consumption of crop products. Hydrol. Earth Syst. Sci. 14, (1), 119, 2010.
- 9. ZHAO N.Z., GHOSH T., CURRIT, N.A., ELVIDGE C.D. Relationships between satellite observed lit area and water footprints. Water Resour Manage 25, (9), 2241, 2011.
- 10. FENG K., HUBACEK K., MINX J., SIU Y.L., CHAPAGAIN AK., YU Y., GUAN D., BARRETT J. Spatially explicit analysis of water footprints in the UK.Water 3, (1), 47, 2011.
- 11. SUN SK., WU P.T., WANG Y.B., ZHAO X.N. Temporal variability of water footprint for maize production: the case of Beijing from 1978 to 2008. Water Resour Manage 27, (7), 2447, 2013.
- 12. LIU J., WILLIAMS J.R., ZEHNDER A.J.B, YANG H. GEPIC – modelling wheat yield and crop water productivity with high resolution on a global scale, Agric. Sys. 94, 47, 2007.
- 13. GE L.Q., XIE G.D., LI S.M., ZHANG C.X., CHEN L.X. A study on production water footprint of winter-wheat and maize in the North China Plain. Resour Sci, 32, (11), 2066, 2010 [In Chinese].
- 14. CHAPAGAIN A.K., HOEKSTRA A.Y. The blue, green and grey water footprint of rice from production and consumption perspectives. Ecological Economics 70, (4), 749, 2011.
- 15. HE H., HUANG J., HUAI H.J., TONG W.J. The water footprint and Its temporal change characteristics of rice in Hunan. Chinese Agricultural Science Bulletin, 26, (14), 294, 2010 [In Chinese].
- 16. WANG X.H., XU Z.M., LONG A.H. Estimation of water footprint of China in 2000. Journal of Glaciology and Geocryology 27, (5), 774, 2005.
- 17. GE L.Q., XIE G.D., ZHANG C.X., LI S.M., QI Y., CAO S.Y., HE T.T. An evaluation of China's water footprint. Water Resour Manage 25, (10), 2633, 2011.
- 18. MA J., WANG D.X., LAI H.L., WANG Y. Water FootprintAn Application in Water Resources Research. Resources Science 27, (5), 96, 2005.
- 19. HOEKSTRA A.Y., CHAPAGAIN A.K. Water footprints of nations: water use by people as a function of their consumption pattern. Water Resour Manage 21, (1), 35, 2007.
- 20. MA J., HOEKSTRA A.Y., WANG H., CHAPAGAIN A.K., WANG D.X. Virtual versus real water transfers within China. Philosophical Transactions of the Royal Society BBiological Sciences 361, (1469), 835, 2006.
- 21. DONG H.J., YONG G., JOSEPH S., TSUYOSHI F., TOMOHIRO O., BING X. Regional water footprint evaluation in China: a case of Liaoning. Sci. Total Environ. 442, 215, 2013.
- 22. LONG A.H., XU Z.M., ZHANG Z.Q. Estimate and analysis of water footprint in Northwest China, 2000. Journal of Glaciology and Geocryology 25, (6), 692, 2003.
- 23. SUN C.Z., LIU Y.Y., CHEN L.X., ZHANG L. The spatialtemporal disparities of water footprints intensity based on Gini coefficient and Theil index in China. Acta Ecologica Sinica 30, (5), 1312, 2010.
- 24. ZHANG Z.Y., YANG H., SHI M.J. Analyses of water footprint of Beijing in an interregional input-output framework. Ecological Economics 70, (12), 2494, 2011.
- 25. ZHAO X., YANG H., YANG Z.F., CHEN B., QIN Y. Applying the Input-Output Method to Account for Water Footprint and Virtual Water Trade in the Haihe River Basin in China. Environment Science & Technology 44, (23), 9150, 2010.
- 26. FENG K.S., SIU Y.L., GUAN D.B., HUBACEK K. Assessing regional virtual water flows and water footprints in the Yellow River Basin, China: A consumption based approach. Applied Geography 32, (2), 691, 2012.
- 27. SUN S.K., WU P.T., WANG Y.B., ZHAO X.N., LIU J., ZHANG X.H. The temporal and spatial variability of water footprint of grain: A case study of an irrigation district in China from 1960 to 2008. Journal of Food, Agriculture & Environment 10, (3&4), 1246, 2012.
- 28. HOEKSTRA A.Y., MEKONNEN M.M. The water footprint of humanity. Proceedings of the National Academy of Sciences 109, (9), 3232, 2012.
- 29. CHAPAGAIN A.K., HOEKSTRA A.Y. Water footprints of nations, Value of Water Research Report Series No. 16, UNESCO-IHE, Delft, the Netherlands 2004.
- 30. ZIMMER D., RENAULT D. Virtual water in food production and global trade: Review of methodological issues and preliminary results, in: Virtual water trade. Proceedings of the international expert meeting on virtual water trade, edited by: Hoekstra A. Y., UNESCO-IHE, Delft, the Netherlands pp. 25-47, 2003.
- 31. ZHANG L. Study of China's virtual water and water footprint regional differences. Dalian: Liaoning Normal University 2009.
- 32. SUN S.K., WU P.T., WANG Y.B., ZHAO X.N., LIU J., ZHANG X.H. The impacts of interannual climate variability and agricultural inputs on water footprint of crop production in an irrigation district of China. Sci. Total Environ. 444, 498, 2013.
- 33. CAO X.C., WU P.T., WANG Y.B., ZHAO X.N., LIU J. Analysis on temporal and spatial differences of water productivity in irrigation districts in China. Transactions of the Chinese Society of Agricultural Engineering 28, (13), 1, 2012.
- 34. ZHAO X., CHEN B., YANG Z. National water footprint in an input-output framework-a case study of China 2002. Ecol Model 220, (2), 245, 2009.
- 35. LI B.G., HUANG F. Trends in China s agricultural water use during recent decade using the green and blue water approach. Advances in Water Science 21, (4), 575, 2010.
- 36. The People's Daily. Four questions for China’s urbanization. The People's Daily overseas edition, Dec 19, edition 02, 2012.
- 37. WU P.T., WANG Y.B., ZHAO X.N. Grain production water footprint and virtual water flow of China in 2010. China WaterPower Press, Beijing 2012.
- 38. DE F.C., CAI X., AMARASINGHE U., ROSEGRANT M., MOLDEN D. Does international cereal trade save water? The impact of virtual water trade on global water use. Comprehensive Assessment Research Report 4. Sri Lanka: Comprehensive Assessment Secretariat; Colombo 2004.
- 39. QIN L.J., QIU H., TAO G.F. World Grain Trade and Water Resources Security. World Regional Studies 15, (1), 44, 2006.
- 40. JIANG Y. China’s water scarcity. Journal of Environmental Management 90, 3185, 2009.
- 41. LIU J., DIAMOND J. China’ s environment in a globalizing world. Nature 435, 1179, 2005.
- 42. TSO T.C. Agriculture of the future. Nature 428, 215, 2004.
- 43. CAI X.M., RINGLER C. Balancing agriculture and environmental water needs in China: alternative scenarios and policy options. Water Policy 9, 95, 2007.
- 44. BROWN L.R., HALWEIL B. China’s water shortage could shake world food security. World Watch Magazine 11, 10, 1998.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.agro-2296b4ad-a8f3-47a2-9cf6-81be6a3d217c