Estimation of regional renewable water resources under the impact of climate change

被引:0
作者
An-Yuan Tsai
Wen-Cheng Huang
机构
[1] National Taiwan Ocean University,Department of Harbor and River Engineering
来源
Paddy and Water Environment | 2012年 / 10卷
关键词
Climate change; GCM; Renewable water resources; Quadrant Transformation Method; Potential evapotranspiration; Thornthwaite method;
D O I
暂无
中图分类号
学科分类号
摘要
The purpose of this paper is to develop an estimation model for regional renewable water resources under climate change conditions. Working with Japan’s high-resolution GCM-type JMA/MRI TL959L60 future rainfall modeling data in SRES-A1B condition, first we revise the modeling data through the Quadrant Transformation Method (QTM), and then use the Thornthwaite method for potential evapotranspiration to establish regional evapotranspiration data and estimate future renewable water resources. This study focuses on Taiwan’s four water resource regions to estimate renewable water resources for each region between 2080 and 2099. The results indicate that average annual renewable water resource volume for Taiwan as a whole will drop by 12.3% from 67.5 to 59.2 km3, as compared with the average from 1949 through 2000.
引用
收藏
页码:129 / 138
页数:9
相关论文
共 32 条
[1]  
Arnell NW(1999)A simple water balance model for the simulation of streamflow over a large geographic domain J Hydrol 217 314-335
[2]  
Hargreaves GH(1975)Moisture availability and crop production Trans ASAE 18 980-984
[3]  
Kite GW(1994)Simulation of streamflow in a macroscale watershed using general circulation model data Water Resour Res 30 1547-1599
[4]  
Dalton A(2006)20 km-mesh global climate simulations using JMA–GSM model-mean climate states J Meteorol Soc Jpn 84 165-185
[5]  
Dion K(1964)Estimation of annual run-off from meteorological data in tropical climate J Hydrol 2 116-123
[6]  
Mizuta R(1972)On the assessment of the surface heat flux and evaporation using large-scale parameters Mon Weather Rev 100 81-92
[7]  
Oouchi K(2006)Sustainable agriculture and wetlands Wetl Nat Resour Manag 190 33-52
[8]  
Yoshimura H(2010)Research problems of formation and estimation of water resources and water availability changes of the Russian Federation Russ Meteorol Hydrol 35 13-19
[9]  
Noda A(1992)Equation for evaporation pan to evapotranspiration conversions J Irrig Drain Eng 118 977-980
[10]  
Katayama K(1948)An approach toward a rational classification of climate Geogr Rev 38 55-94
1234