Your search found 8 records
1 Zhu, O.; Liu, C. 1998. Rainwater utilization as sustainable development of water resources in China. In Stockholm International Water Institute. Workshop 4B: Water harvesting - Water, the key to socio-economic development and quality of life, Stockholm Water Symposium, August 10-13, 1998. Stockholm, Sweden: SIWI. pp.19-28.
Water harvesting ; Rain ; Catchment areas ; Water storage ; Water resources development ; Water shortage ; Water deficit ; Poverty ; Irrigation practices ; Supplementary irrigation ; Drought / China / Gansu Province / Ningxia
(Location: IWMI-HQ Call no: 333.91 G000 STO Record No: H025013)
2 Ho, P. 2003. The wasteland auction policy in Northwest China: Solving environmental degradation and rural poverty? The Journal of Peasant Studies, 30(3/4):121-159.
Environmental degradation ; Poverty ; Land management ; Policy ; Villages ; Forestry / China / Ningxia
(Location: IWMI-HQ Call no: PER Record No: H033258)
3 Merkle, R. 2003. Ningxia’s third road to rural development: Resettlement schemes as a last means to poverty reduction? The Journal of Peasant Studies, 30(3/4):160-191.
(Location: IWMI-HQ Call no: PER Record No: H033259)
4 Hollanders, P.; Schultz, B.; Shaoli, W.; Lingen, C. 2005. Drainage and salinity assessment in the Huinong Canal Irrigation District, Ningxia, China. Irrigation and Drainage, 54(2):155-173.
Salinity ; Assessment ; Drainage ; Irrigation canals ; Computer models ; Simulation models ; Groundwater ; Flow / China / Ningxia
(Location: IWMI-HQ Call no: PER Record No: H036956)
5 Deng, X. P.; Shan, L.; Zhang, H.; Turner, N. C. 2006. Improving agricultural water use efficiency in arid and semiarid areas of China. Agricultural Water Management, 80(1-3):23-40.
Irrigated farming ; Water use efficiency ; Water conservation ; Water deficit ; Water stress ; Arid zones ; Water harvesting ; Terraces ; Mulching ; Fertilization / China / Yellow River / Ningxia / Inner Mongolia / Loess Plateau
(Location: IWMI-HQ Call no: PER Record No: H038418)
6 Pereira, L. S.; Gonc alves, J. M.; Campos, A. A.; Fabiao, M. S.; Paredes, P.; Mao, Z.; Dong, B.; Liu, Y.; Li, Y. N.; Fang, S. X. 2003. Irrigation water saving issues in the Yellow River Basin: a case study in Huinong Irrigation District. In Yellow River Conservancy Commission. Proceedings, 1st International Yellow River Forum on River Basin Management – Volume III. Zhengzhou, China: The Yellow River Conservancy Publishing House. pp.17-36.
River basins ; Irrigation scheduling ; Basin irrigation ; Simulation models ; Irrigation canals ; Water conservation ; Wheat ; Maize ; Evapotranspiration / China / Yellow River / Huinong / Ningxia / Bojili / Shandong
(Location: IWMI-HQ Call no: 333.91 G592 YEL Record No: H034654)
7 Wang, J.; Huang, J.; Xu, Z.; Rozelle, S.; Hussain, I.; Biltonen, Eric. 2007. Irrigation management reforms in the Yellow River Basin: Implications for water saving and poverty. Irrigation and Drainage, 56:247-259.
Irrigation management ; River basins ; Water conservation ; Water user associations ; Water use ; Models ; Poverty / China / Yellow River Basin / Ningxia / Henan
(Location: IWMI HQ Call no: IWMI 631.7 G592 WAN Record No: H040004)
8 Xu, J.; Xiao, Y.; Xie, G.; Liu, J.; Qin, K.; Wang, Y.; Zhang, C.; Lei, G. 2021. How to coordinate cross-regional water resource relationship by integrating water supply services flow and interregional ecological compensation. Ecological Indicators, 126:107595. (Online first) [doi: https://doi.org/10.1016/j.ecolind.2021.107595]
Water resources ; Water supply ; Water demand ; Ecosystem services ; Ecological factors ; Compensation ; Policies ; River basins ; Water use ; Socioeconomic aspects / China / Ningxia / Yellow River Basin / Hexi Inland River Basin
(Location: IWMI HQ Call no: e-copy only Record No: H050386)
https://www.sciencedirect.com/science/article/pii/S1470160X21002600/pdfft?md5=16b552b364ddaf44a1064979487a2ea0&pid=1-s2.0-S1470160X21002600-main.pdf
https://vlibrary.iwmi.org/pdf/H050386.pdf
https://vlibrary.iwmi.org/pdf/H050386.pdf
(18.80 MB) (18.8 MB)
Ecosystem service (ES) flow reveals the transregional benefits transferred from service supply areas (SSAs) to service benefiting areas (SBAs), which correspond to the sellers and buyers of interregional ecological compensation, respectively. However, current ecological compensation policies usually ignore this close connection. This study took the water supply services (WSSs) with the most obvious flow characteristics as an example and established a universal framework for interregional ecological compensation by combining WSSs flow simulation and regional disparity. The simulation process was programmed with Interactive Data Language (IDL) and analyzed with ArcGIS. Most regions serve as a dual role in the WSSs flow process, the water suppliers and users are relative and scale-dependent. Taking Ningxia as an example, As water benefiting areas (WBAs)/buyers, the total material inflow to Ningxia was 135.86 × 108 ~ 294.22 × 108 m3 from 2000 to 2015 and the value inflow ranged from 1077.39 × 108 ~ 2333.16 × 108 CNY, requiring 101.64 × 108 ~ 293.51 × 108 CNY ecological compensation paid by Ningxia. As water supply areas (WSAs)/sellers, the total material outflow from Ningxia was 72.83 × 108 ~ 200.46 × 108 m3 from 2000 to 2015, and the value outflow was between 577.54 × 108 CNY and 1589.65 × 108 CNY, requiring 63.80 × 108 ~ 112.34 × 108 CNY of ecological compensation to be paid by the downstream basins, especially the Shizuishan – Hekou Town subbasin. Overall, Ningxia was a beneficiary area of WSSs flow and the payers of interregional ecological compensation, with a net payment amount of 37.84 × 108 ~ 181.16 × 108 CNY. This study provides a direct spatial-visualized reference to water resource management for policy-makers and promotes the integration of ES flow and interregional ecological compensation. Furthermore, it can improve the public recognition of interregional ecological compensation with the spatial mapping of the levy and allocation and conducive to the sustainable provisioning of ESs ultimately.
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