Impacts of Global Climate Change Scenarios on Water Supply and Demand in Jordan
- 1 September 2000
- journal article
- research article
- Published by Taylor & Francis in Water International
- Vol. 25 (3) , 457-463
- https://doi.org/10.1080/02508060008686853
Abstract
The potential impact of global climate change is one of the least addressed factors in water resources planning in developing countries. The potential impacts of climate change are examined for Jordan, where a methodology is presented for improved management of water demand under the uncertainties associated with climate change. A temperature/precipitation sensitivity model is constructed and combined with water demand forecasts to project deficits for the year 2020. Deficit reducing options are then evaluated in terms of social and economic viability. The study concludes that only some of the deficits may be alleviated, illustrating the significance of considering climate change in planning for countries that already experience water imbalances.Keywords
This publication has 11 references indexed in Scilit:
- Use of Focus Groups and Surveys to Evaluate Water Conservation CampaignJournal of Water Resources Planning and Management, 1999
- Water Resources in the Mediterranean RegionWater International, 1999
- The use of infiltration field tests for groundwater artificial rechargeEnvironmental Geology, 1999
- Application of Multicriteria Decision Aid to Rank the Jordan-Yarmouk Basin Co-riparians According to the Helsinki and ILC RulesWater International, 1998
- Water resources planning in the Middle East: Application of the PROMETHEE V multicriteria methodEuropean Journal of Operational Research, 1995
- Urban water demand and climate changeNatural Resources Forum, 1994
- Environmental Management in Jordan: Problems and RecommendationsEnvironmental Conservation, 1994
- Environmental issues and economic decisions in developing countriesWorld Development, 1993
- Water supply policies and issues in developing countriesNatural Resources Forum, 1990
- Regional hydrologic consequences of increases in atmospheric CO2 and other trace gasesClimatic Change, 1987