Research on Influences of Global Climate Change on Water Resources in the Yellow River Basin

Jian Liu; Jian Qing Zhai; Hui Tao; Xu Chun Ye

doi:10.4028/www.scientific.net/AMR.726-731.3480

Paper Titles

Quantifying Irrigation Impact on Water Cycle Based on Improved SWAT Model in Paddy District
p.3457

Quantitative Research of China Agricultural Virtual Water Trade Based on CROPWAT Model
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Research of Critical Precipitation Distribution in Sichuan Province Based on Spatial Interpolation Method
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Research on Comprehensive Protection and Administration System of the Chinese Grand Canal
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Research on Influences of Global Climate Change on Water Resources in the Yellow River Basin
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Research on Various Operation Modes of Geheyan Hydropower Station Reservoir in the Qingjiang River
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Study of Rational Development Mode for Water Resource in Arid Areas Based on the Fuzzy Comprehensive Evaluation
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Study on Calculations of Pollutant Adjustment Concentrations at Monitoring Sections in Water Function Zones under the Scene of Overproof Upstream Water
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Study on Surface Flow Constructed Wetland Treating Slightly Polluted River Water in the High Latitude and Cold Region
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Research on Influences of Global Climate Change on...

Research on Influences of Global Climate Change on Water Resources in the Yellow River Basin

Abstract:

The study explored global climate change influence on water resources in Yellow River basin. A HBV hydrological model was developed to simulate the rainfall-runoff relationship at the region. Importing the CCLM climate model data, runoff at Lijin station was obtained in 2000-2039. The results indicate: (1) the annual average runoff depth is 1213mm, runoff in summer is larger than in spring,autumn and winter. The water resources decrease in three months (March, April and Jun) and increase in other months. (2) for inter-annual variations, the water resources increases slightly, and increase trend is about 64.8mm/10a. Water resources are insufficient in 200-2016, and rise gradually from 2017. (3) for different decades, the water resources are lack relatively in 2001-2010 and 2011-2020, and the differences are-59.4mm and-76.0mm respectively. While, the water resources in 2021-2030 and 2031-2039 are abundant, and the differences are 90.6mm and 88.8mm respectively.

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Periodical:

Advanced Materials Research (Volumes 726-731)

Pages:

3480-3485

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.726-731.3480

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Online since:

August 2013

Authors:

Jian Liu*, Jian Qing Zhai, Hui Tao, Xu Chun Ye

Keywords:

Climate Change, Evolution, Water Resource, Yellow River Basin

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* - Corresponding Author

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