Your search found 5 records
1 Ren, H.; Fu, G.; He, X.; Ouyang, Z.; Yu, J.; Yuan, S. 2000. Water states and stress in China. In Wang, R.; Ren, H.; Ouyang, Z. (Eds.), China water vision: The eco-sphere of water, life, environment and development. Beijing, China: China Meteorological Press. pp.3-36.
Water resources ; Siltation ; Water demand ; Water use efficiency ; Irrigated farming ; Industrialization ; Water pollution ; Urbanization ; Ecology ; Natural disasters ; Flood water ; Drought / China
(Location: IWMI-HQ Call no: 333.91 G592 WAN Record No: H026833)
2 Fu, G.; Min, Q.; Ouyang, Z.; Wang, X.; Wang, R.; Zhang, Q. 2000. China water security scenario. In Wang, R.; Ren, H.; Ouyang, Z. (Eds.), China water vision: The eco-sphere of water, life, environment and development. Beijing, China: China Meteorological Press. pp.52-82.
Water use efficiency ; Food security ; Population ; Water demand ; Economic aspects ; Environmental effects ; Water availability / China
(Location: IWMI-HQ Call no: 333.91 G592 WAN Record No: H026835)
3 Ren, H.; Fu, G.; Yu, J.; Strzepek, K. 2000. China water vision in regions. In Wang, R.; Ren, H.; Ouyang, Z. (Eds.), China water vision: The eco-sphere of water, life, environment and development. Beijing, China: China Meteorological Press. pp.83-124.
Water resources ; Water use ; Water deficit ; Water demand ; Water supply ; Water conservation ; Watershed management ; Water quality ; River basins ; Water pollution ; Silt ; Drought ; Models ; Crop production ; Case studies / China / Yangtze Basin / Yellow River Basin
(Location: IWMI-HQ Call no: 333.91 G592 WAN Record No: H026836)
4 Wang, R.; Ouyang, Z.; Fu, G.; Min, Q.; Wang, X.; Hu, D. 2000. Risk and opportunity: Summary of China water vision in the first quarter of 21st century. In Wang, R.; Ren, H.; Ouyang, Z. (Eds.), China water vision: The eco-sphere of water, life, environment and development. Beijing, China: China Meteorological Press. pp.164-172.
(Location: IWMI-HQ Call no: 333.91 G592 WAN Record No: H026838)
5 Webber, J. L.; Balbi, M.; Lallemant, D.; Gibson, M. J.; Fu, G.; Butler, D.; Hamel, P. 2021. Towards regional scale stormwater flood management strategies through rapid preliminary intervention screening. Water, 13(15):2027. (Special issue: The Scale Effects of Green Infrastructures on Urban Stormwater Runoff) [doi: https://doi.org/10.3390/w13152027]
Flooding ; Stormwater management ; Runoff ; Modelling ; Strategies ; Climate change ; Risk management ; Regional planning ; Infrastructure ; Land use ; Rainwater ; Landscape conservation ; Ecosystem services ; Stakeholders ; Case studies / USA / San Francisco Bay
(Location: IWMI HQ Call no: e-copy only Record No: H050561)
(1.50 MB) (1.50 MB)
This paper presents the advantages and opportunities for rapid preliminary intervention screening to enhance inclusion of green infrastructures in regional scale stormwater management. Stormwater flooding is widely recognised as a significant and worsening natural hazard across the globe; however, current management approaches aimed at the site scale do not adequately explore opportunities for integrated management at the regional scale at which decisions are made. This research addresses this gap through supporting the development of stormwater management strategies, including green infrastructure, at a regional scale. This is achieved through upscaling a modelling approach using a spatially explicit inundation model (CADDIES) coupled with an economic model of inundation loss (OpenProFIA) to support widescale evaluation of green infrastructure during the informative early-stage development of stormwater management strategies. This novel regional scale approach is demonstrated across a case study of the San Francisco Bay Area, spanning 8300 sq km. The main opportunity from this regional approach is to identify spatial and temporal trends which are used to inform regional planning and direct future detailed modelling efforts. The study highlights several limitations of the new method, suggesting it should be applied as part of a suite of landscape management approaches; however, highlights that it has the potential to complement existing stormwater management toolkits.
Powered by DB/Text WebPublisher, from
