Exploitation of groundwater resources and protection of wetland in the Yuqia Basin

ZHANG Chun-chao; LI Xiang-quan; GAO Ming; HOU Xin-wei; LIU Ling-xia; WANG Zhen-xing; MA Jian-fei

Volume 5 Issue 3

Sep. 2017

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Article Navigation > Journal of Groundwater Science and Engineering > 2017 > 5(3): 222-234

ZHANG Chun-chao, LI Xiang-quan, GAO Ming, et al. 2017: Exploitation of groundwater resources and protection of wetland in the Yuqia Basin. Journal of Groundwater Science and Engineering, 5(3): 222-234.

Citation:

ZHANG Chun-chao, LI Xiang-quan, GAO Ming, et al. 2017: Exploitation of groundwater resources and protection of wetland in the Yuqia Basin. Journal of Groundwater Science and Engineering, 5(3): 222-234.

Citation:

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Exploitation of groundwater resources and protection of wetland in the Yuqia Basin

1Institute of Hydrogeology and Environmental Geology, Shijiazhuang 050061, China

Publish Date: 2017-09-28

Abstract

Abstract

In Yuqia Basin, the climate is arid and the ecologic environment is fragile, and shortage of water resources has seriously restricted the sustainable development of local economy. In order to meet the needs of industrial and domestic water in the Yuqia Basin, numerical simulation was used to evaluate the groundwater resources and potential for exploitation. The results showed that the mathematical model and calculation parameters used were mainly in accordance with practical situation. The calculated value of the underground water level is consistent with measured value during the period of identification and validation. The total recharge of groundwater resources was 22.02×104 m3/d, and the total drainage was 21.95×104 m3/d at present. The Yuqia River leakage is the main supply source of groundwater. There is no significant effect on area of wetland when water source place exploited by 2.5×104 m3/d at alluvial-diluvial fan of Yuqia River. After long-term exploitation, the spring flow reduces from 1.42×104 m3/d to 1.01×104 m3/d and wetland area reduces by 32.7% of original area. The calculation of water balance shows that it is safe to the Yuqia Basin, Da Qiadam Lake, the Mahai Basin at downstream of Yuqia River and wetland under the condition of water source place exploited by 2.5×104 m3/d.
- Yuqia Basin,
- Groundwater resources,
- Numerical simulation,
- Water source,
- Wetland

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References(22)

References

DENG Ming-jiang. 2009. Current situation and its potential analysis of exploration and utiliza-tion of groundwater resources of Xinjiang. Arid Land Geography, 32(5): 647-648 .

LI Jian, WANG Hui, et al. 2008. Preliminary estimation discussion on ecological consump-tion use of water of Golmud River in Qaidam Basin. Hydrogeology & Engineering Geology, 21(35): 72-74 .

SHU Long-cang, WANG Mao-mei, et al. 2007. Sensitivity analysis of parameters in numerical simulation of groundwater. Journal of Hohai University (Nature Sciences), 35(5): 493-494 .

ZHANG Xian-jun, YAO Hui-yong. 2010. Wetland construction and planning of Nansi Lake of the eastern route project of the South-to-North water transfer. South-to-North Water Transfers and Water Science & Technology, 8(3): 22-24 .

WANG Wen-ke, YANG Ze-yuan, et al. 2011. Methods of ecology-oriented groundwater resource assessment in arid and semi-arid area. Journal of Jilin University (Earth Science Edition), 41(1): 160-161 .

LIU Yan-hua. 2000. Exploitation and utilization of water resources reasonable and protection of eco-environment in Qaidam basin. Beijing: Science Press, 52-83 .

WANG Gui-ling, CHEN De-hua, et al. 2007. Reasonable exploitation and utilization of groundwater resource in north China. Journal of Desert Research, 27(4): 684-685 .

XU Wei-lin, LIU Zhen-ying, et al. 2009. The survey report of Yuqia basin water sources for the Iqe plant of Qinghai DaQaidam. Hydrogeology and Engineering Geology Investigation Institute of Qinghai, 9-28 .

JIANG Nan-jie, LIU Shu-ying, et al. 2010. Analysis on flow calculation upper station in Iqe River of Da Qaidam, Qinghai Province. Qinghai Science and Technology, 17(6): 64-65 .

SUN Zhi-gao, MOU Xiao-jie, et al. 2011. Actualities, problems and suggestions of wetland protection and restoration in the Yellow River Delta. Wetland Science, 9(2): 107-108 .

ZHANG Fei, TASHPOLAT Tiyip, et al. 2012. Evaluation of groundwater resources at the oasis in middle reaches of Tarim River. Journal of Water Resources & Water Engineering, 23(4): 75-76 .

JIN Jia-qiong, LI Jian, et al. 2014. The exploitation and ecological protection of water resources around YuKa River basin of Qaidam. Northwestern Geology, 47(2): 223-224 .

TANG Meng-ling, XU Heng-li. 2001. Significance of groundwater for existence succession of vegetation in northwest China. Geological Science and Technology Information, 20(2): 79-82 .

LIU Sheng, LOU Hua-jun, et al. 2014. Quantitative relationship between vegetation and ground-water depth in Mahai Oasis area. South-to- North Water Transfers and Water Science & Technology, 12(6): 1-3 .

ZHAI Yuan-zheng, WANG Jin-sheng, et al. 2010. Sensitivity analysis of parameters in numerical simulation of groundwater. Yellow River, 32(12): 99-100 .

XIA Fan. 2010. Analysis of YuQia Basin groundwater resources in the Golmud City in Qinghai Province. Shijiazhuang: Shijiazhuang University of Economics .

WANG Zhan, LI Xiang-quan, GAO Ming. 2015. Remote sensing inversion of groundwater level in YuKa-Dachaidan basin delta area of Qinghai province. Journal of Water Resources & Water Engineering, 26(1): 81-82 .

SUN Cong-wen, HAN Zhen-bo, et al. 2013. Advances in research and application of groundwater numerical simulation. Environ-ment Engineering, 31(5): 9-11 .

WANG Zhan. 2015. Eco-environmental indicators of groundwater in YUKA and Da Qaidam basin in Qinhai Province and its assessment. Beijing: Chinese Academy of Geological Sciences, 9-10 .

BAI Sheng-hai, TIAN Jing-chun, et al. 2007. Rational utilization of water resources in the Iqe River drainage area on the northern margin of the Qaidam basin, China. Geological Bulletin of China, 26(6): 756-758 .

CUI Ya-li, SHAO Jing-li, HAN Shuang-ping. 2001. Ecological environment adjustment by ground? water in northwest China. Earth Science Frontiers, 8(1):191-192 .

ZHU Pu-cheng. 2015. Groundwater circulation patterns of Yuqia-Mahai basin in the middle and lower reaches of Yuqia River. Jilin: Jilin University, 9-28 .

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