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Water Resources in a Variable and Changing Climate
Asma Abahussain
Euloge K. Agbossou
Mushtaque Ahmed
Mary Akurut
Mohammed Saif Al-Kalbani
Ricardo Arias
Rupak Aryal
Simon Beecham
Morgan Bida
Henning Bjornlund
John Boland
Aymar Y. Bossa
Robert Brooks
Mike D. Burch
Robert I. Daly
Amalia Davies
Stephen Davies
Bernd Diekkrüger
Eihab Fathelrahman
Alistair Grinham
Janel Hanrahan
Edwyna Harris
Wen-Cheng Huang
Mohammad Kamruzzaman
Jan Jacob Keizer
Jonathan E. Kenny
Sergey Kravtsov
Jyun-Long Lee
Zongli Li
Hong-Ming Liu
Wen-Cheng Liu
Charles B. Niwagaba
Joao Pedro Nunes
Timothy O'Higgins
Todd Pagano
Martin F. Price
James Pritchett
M. Luz Rodríguez-Blanco
Paul Roebber
Md Sumon Shahriar
Leszek Sobkowiak
M. Mercedes Taboada-Castro
M. Teresa Taboada-Castro
Leon van der Linden
Ann Wheeler
Patrick Willems
Jun Xia
Lingling Zhao
Alec Zuo
出版
MDPI AG - Multidisciplinary Digital Publishing Institute
, 2015
URL
http://books.google.com.hk/books?id=Ebw2tAEACAAJ&hl=&source=gbs_api
註釋
Climate change will bring about significant changes to the capacity of, and the demand on, water resources. The resulting changes include increasing climate variability that is expected to affect hydrologic conditions. The effects of climate variability on various meteorological variables have been extensively observed in many regions around the world. Atmospheric circulation, topography, land use and other regional features modify global changes to produce unique patterns of change at the regional scale. As the future changes to these water resources cannot be measured in the present, hydrological models are critical in the planning required to adapt our water resource management strategies to future climate conditions. Such models include catchment runoff models, reservoir management models, flood prediction models, groundwater recharge and flow models, and crop water balance models. In water-scarce regions such as Australia, urban water systems are particularly vulnerable to rapid population growth and climate change. In the presence of climate change induced uncertainty, urban water systems need to be more resilient and multi-sourced. Decreasing volumetric rainfall trends have an effect on reservoir yield and operation practices. Severe intensity rainfall events can cause failure of drainage system capacity and subsequent urban flood inundation problems. Policy makers, end users and leading researchers need to work together to develop a consistent approach to interpreting the effects of climate variability and change on water resources. This Special Edition includes papers by international experts who have investigated climate change impacts on a variety of systems including irrigation and water markets, land use changes and vegetation growth, lake water levels and quality and sea level rises. These investigations have been conducted in many regions of the world including the USA, China, East Africa, Australia, Taiwan and the Sultanate of Oman.