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标题：Improving irrigation efficiency will be insufficient to meet future water demand in the Nile Basin
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作者：S. Multsch ; M.E. Elshamy ; S. Batarseh 等
期刊名称：Journal of Hydrology: Regional Studies
印刷版ISSN：2214-5818
出版年度：2017
卷号：12
页码：315-330
DOI：10.1016/j.ejrh.2017.04.007
出版社：Elsevier B.V.
摘要：The Nile River Basin covers an area of approximately 3.2 million km 2 and is shared by 11 countries. Rapid population growth is expected in the region. The irrigation requirements of Nile riparian countries of existing (6.4 million ha) and additional planned (3.8 million ha, 2050) irrigation schemes were calculated, and the likely water savings through improved irrigation efficiency were evaluated. We applied SPARE:WATER to calculate irrigation demands on the basis of the well-known FAO56 Crop Irrigation Guidelines. Egypt (67 km 3 yr −1 ) and Sudan (19 km 3 yr −1 ) consume the highest share of the 84 km 3 yr −1 total (2011). Assuming today’s poor irrigation infrastructure, the total consumption was predicted to increase to 123 km 3 yr −1 (2050), an amount far exceeding the total annual yield of the Nile Basin. Therefore, a key challenge for water resources management in the Nile Basin is balancing the increasing irrigation water demand basin-wide with the available water supply. We found that water savings from improved irrigation technology will not be able to meet the additional needs of planned areas. Under a theoretical scenario of maximum possible efficiency, the deficit would still be 5 km 3 yr −1 . For more likely efficiency improvement scenarios, the deficit ranged between 23 and 29 km 3 yr −1 . Our results suggest that that improving irrigation efficiency may substantially contribute to decreasing water stress on the Nile system but would not completely meet the demand. Study Region The Nile River Basin covers an area of approximately 3.2 million km 2 and is shared by 11 countries. Rapid population growth is expected in the region. Study Focus Record population growth is expected for the study region. Therefore, the irrigation requirements of Nile riparian countries of existing (6.4 million ha) and additional planned (3.8 million ha, 2050) irrigation schemes were calculated, and likely water savings through improved irrigation efficiency were evaluated. We applied a spatial decision support system (SPARE:WATER) to calculate the irrigation demands on the basis of the well-known FAO56 Crop Irrigation Guidelines. New Hydrological Insights for the Region Egypt (67 km 3 yr −1 ) and Sudan (19 km 3 yr −1 ) consume the highest share of 84 km 3 yr −1 (2011). Assuming today’s poor irrigation infrastructure, the total demand were predicted to increase to 123 km 3 yr −1 (2050), an amount far exceeding the total annual yield of the Nile Basin. Therefore, a key challenge for water resources management in the Nile Basin is balancing the increasing irrigation water demand and available water supply. We found that water savings from improved irrigation technology will not be able to meet the additional needs of planned areas. Under a theoretical scenario of maximum possible efficiency, the deficit would still be 5 km 3 yr −1 . For more likely efficiency improvement scenarios, the deficit ranges between 23 and 29 km 3 yr −1 . Our results suggest that improving irrigation efficiency may substantially contribute to decreasing water stress on the Nile system but would not completely meet the demand.
关键词：Irrigation ; SPARE:WATER ; future projection ; Nile ; irrigation efficiency