Your search found 3 records
1 Loeve, R.; Hong Lin; Dong Bin; Mao, G.; Chen, C. D.; Dawe, D.; Barker, R. 2003. Long term trends in agricultural water productivity and intersectoral water allocations in Zhanghe, Hubei, China and in Kaifeng, Henan, China. In ICID Asian Regional Workshop, Sustainable Development of Water Resources and Management and Operation of Participatory Irrigation Organizations, November 10-12, 2003, The Grand Hotel, Taipei. Vol.1. Taipei, Taiwan: ICID. pp.367-380.
Irrigation water ; Productivity ; Water allocation ; Crop production / China / Zhanghe / Hubei / Kaifeng / Henan
(Location: IWMI-HQ Call no: ICID 631.7.2 G570 ICI Record No: H033358)
2 Loeve, R.; Hong, L.; Dong, B.; Mao, G.; Chen, C. D.; Dawe, D.; Barker, Randolph. 2004. Long-term trends in intersectoral water allocation and crop water productivity in Zhanghe and Kaifeng, China. Paddy and Water Environment, 2:237-245.
Crop production ; Water conservation ; Water allocation ; Productivity / China / Hubei / Henan / Zhanghe / Kaifeng
(Location: IWMI-HQ Call no: IWMI 631.7.2 G592 LOE Record No: H035938)
3 Meng, Y.; Liu, J.; Wang, Z.; Mao, G.; Wang, K.; Yang, H. 2021. Undermined co-benefits of hydropower and irrigation under climate change. Resources, Conservation and Recycling, 167:105375. (Online first) [doi: https://doi.org/10.1016/j.resconrec.2020.105375]
Hydropower ; Hydroelectric power generation ; Irrigation water ; Water supply ; River basins ; Dam construction ; Climate change ; Global warming ; Water demand ; Energy ; Food security ; Nexus ; Rice ; Models / Cambodia / Thailand / Mekong River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H050238)
https://www.sciencedirect.com/science/article/pii/S092134492030690X/pdfft?md5=f75c9af18cfb3f7dc59ecfefa5c7bee5&pid=1-s2.0-S092134492030690X-main.pdf
https://vlibrary.iwmi.org/pdf/H050238.pdf
https://vlibrary.iwmi.org/pdf/H050238.pdf
(6.67 MB) (6.67 MB)
Dam construction is mostly aimed for multiple functions, including irrigation water provision, hydropower, and some others that bring substantial social benefits. However, global warming impacts on the interaction of the positive outcomes of damming remain little known, particularly in terms of the sustainability of their co-benefits, whereby investigating the different impacts of global warming scenarios of 1.5 °C and 2 °C has been a hotspot in water resources and energy research worldwide. This study used an integrative analysis based on a hydrological, techno-economic and agricultural modeling framework to evaluate the effects of global warming scenarios of 1.5 °C and 2 °C on the co-benefits between hydropower and irrigation in the Mekong River basin. The results show the declined hydropower generation and irrigation water supply in the Mekong River basin under 1.5 °C and 2 °C warming scenarios. The co-benefits between the hydropower and the irrigation is more undermined by the global warming of 2 °C relative to 1.5 °C in the Mekong River basin. Moreover, the changes of co-benefits are sensitive to the consideration of the protected areas in the basin. With the consideration of the protected areas, the co-benefits would be enhanced by 2 °C global warming compared to 1.5 °C global warming. Therefore, it is critical for decision-makers to consider the tradeoffs between the environment and dam construction for ensuring energy and food security under global warming scenarios.
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