| Citation: |
ZHANG Jun, YIN Lihe, GU Xiaofan, LI Ying, YANG Bingchao, JIANG Jun, JIA Wuhui, XIE Wanbing, WANG Tuo, TANG Xiaoping, DONG Jiaqiu, WANG Qian, CHANG Liang. 2021. Study on the Relationship Between Groundwater and Surface Water in Xinjiang Kongque River Basin Using Isotopes and Hydrochemistry method. Northwestern Geology, 54(1): 185-195. doi: 10.19751/j.cnki.61-1149/p.2021.01.016
|
Study on the Relationship Between Groundwater and Surface Water in Xinjiang Kongque River Basin Using Isotopes and Hydrochemistry method
-
Abstract
Groundwater in the Kongque river basin, as one of the main water sources for agricultural irrigation, plays an increasingly important role in the economic development. In order to realize the rational exploitation of water resources and ecological protection, relationship between groundwater and surface water in the Kongque river basin were studied using environmental isotopes and hydrochemistry method. The results show that the main groundwater recharge is from river water. Both the genetic types of aquifers and the distribution of modern channels have effect on the spatial distribution of groundwater quality. The hydrogen-oxygen stable isotopes are good indicators on the transformation among different water bodies, but it is difficult to distinguish the Pleistocene and Holocene groundwater. The combination of 3H and 14C has a good indication on the circulation and renewal ability of groundwater. 14C age variations can well indicate the direction and rate of confined groundwater flow. 13C can be used to preliminarily determine groundwater types or age as a reference indicator.The surface water-fed irrigation have increased the recharge and renewal capacity of the unconfined groundwater,whereas the exploitation and utilization of confined groundwater rely mainly on old groundwater with poor renewal capacity. The extraction of confined groundwater in the agricultural irrigation areas in the middle reaches of Kongque river should be reduced, while in the lower reach of the salty groundwater areas the extraction of unconfined groundwater should be increased in order to lower groundwater level,reduce soil salinization and promote the sustainable use of land and water resources.-
Keywords:
- Kongque river basin /
- groundwater circulation /
- hydrochemistry /
- environmental isotope /
- indicators
-
-
References
王浩,段磊,王文科.秦岭北麓地下水位动态特征与影响因素[J].西北地质,2020,53(2):280-288. WANG Hao,DUAN Lei,WANG Wenke.Dynamic Features of Groundwater Level in Northern Qinling and Its Influence Factors[J].Northwestern Geology,2020,53(2):280-288 张军峰, 孟凡浩, 包安明, 等. 新疆孔雀河流域人工绿洲近40年土地利用/覆被变化[J]. 中国沙漠, 2018, 38(3):664-672. ZHANG J F, MENG F H, BAO A M, et al. LUCC Analysis of the Upstream of the Kongqi River, Xinjiang, China[J]. Journal of Desert Research, 2018, 38(3):664-672. 何志刚. 孔雀河下游生态输水现状及修复对策探析[J]. 陕西水利, 2019, 9(9):39-40. HE Z G. Analysis on the Status quo of Ecological Water Conveyance in the Lower Reaches of Kongque River and the Restoration Countermeasures[J]. Shaanxi Water Resources, 2019,9 (9):39-40. 吾买尔江·吾布力,李卫红, 朱成刚,等. 新疆孔雀河流域生态退化问题与保护恢复研究[J]. 新疆环境保护, 2017, 39(1):8-12. WUBULI W, LI W H, ZHU C G, et al. Research on Ecological Degradation, Protection and Restoration of Peacock River Basin, Xinjiang[J]. Environmental Protection of Xinjiang, 2017, 39(1):8-12. 王晓勇,朱立峰,董佳秋,等.干旱-半干旱区下垫面变化对地下水位的影响[J].西北地质,2019,52(2):227-235 WANG Xiaoyong,ZHU Lifeng,DONG Jiaqiu, et al. Influence of Underlying Surface Change on Hydrogeological Conditions in Arid and Semi-arid Regions[J].Northwestern Geology,2019,52(2):227-235. 潘希哲. 新疆孔雀河中上游平原潜水咸化成因分析[J]. 新疆有色金属, 2016, 39(2):51-54. PAN X Z. Analysis on the Origin of Submersible Salinization in the Middle and Upper Reaches of Kongque River in Xinjiang[J]. Xinjiang Youse Jinshu, 2016, 39(2):51-54. 刘亚琦, 刘加珍, 陈永金, 等. 孔雀河下游断流河道的环境特征及物种间关系[J]. 生态学报, 2017, 37(8):2706-2718. LIU Y Q, LIU J Z, CHEN Y J, et al. Environmental characteristics and interspecific associations in the lower reaches of the Kongque River[J]. Acta Ecologica Sinica, 2017, 37(8):2706-2718. 刘加珍, 李卫红, 陈永金, 等. 孔雀河下游衰退河岸林的沙漠化分析[J]. 聊城大学学报 (自然科学版), 2018, 31(1):65-71. LIU J Z, LI W H, CHEN Y J, et al. The Research and Development of Construction Site Safety Installation of Electricity Transmission and Transformation Facilities of Real-Time Control System[J]. Journal of Liaocheng University (Nat. Sci.), 2018, 31(1):65-71. 宋献方, 李发东, 于静洁, 等. 基于氢氧同位素与水化学的潮白河流域地下水水循环特征[J]. 地理研究, 2007, 26(1):11-21. SONG X F, LI F D, YU J J, et al. Characteristics of Groundwater Cycle Using Deuterium, Oxygen-18 and Hydrochemistry in Chaobai River Basin[J]. Geographical Research, 2007, 26(1):11-21. 苏小四, 林学钰. 银川平原地下水循环及其可更新能力评价的同位素证据[J]. 资源科学, 2004, 26(2):29-35. SU X S, LIN X Y. Cycle Pattern and Renew ablity Evaluation of Groundwater in Yinchuan Basin:Isotopic Evidences[J]. Resources Science, 2004, 26(2):29-35. 马金珠, 黄天明, 丁贞玉. 同位素指示的巴丹吉林沙漠南缘地下水补给来源[J]. 地球科学进展, 2007, 22(9):922-930. MA J Z, HUANG T M, DING Z Y, et al. Environmental Isotopes as the Indicators of the Groundwater Recharge in the South Badain Jaran Desert[J]. Advances in Earth Science, 2007, 22(9):922-930. 李健,王辉,魏丽琼.格尔木河流域平原区地下水同位素及水化学特征[J].西北地质,2007,40(4):94-100. LI Jian,WANG Hui,WEI Liqiong.Isotopic and Hydrochemical Characteristics of Groundwater in the Golmud River Basin[J].Northwestern Geology,2007,40(4):94-100. 苏小四, 林学钰. 银川平原地下水循环及其可更新能力评价的同位素证据[J]. 资源科学, 2004, 26(2):29-35. SU X S, LIN X Y. Cycle Pattern and Renew ablity Evaluation of Groundwater in Yinchuan Basin:Isotopic Evidences[J]. Resources Science, 2004, 26(2):29-35. 赵建忠,魏莉莉,赵玉苹,等.黑河流域地下水与地表水转化研究进展[J].西北地质,2010,43(3):120-126. ZHAO Jianzhong,WEI Lili,ZHAO Yuping, et al. Surface Water and Groundwater Transformation Research in Heihe River Basin[J].Northwestern Geology,2010,43(3):120-126. 张兵, 宋献方, 张应华, 等. 第二松花江流域地表水与地下水相互关系[J]. 水科学进展, 2014, 25(3):336-347. ZHANG B, SONG X F, ZHANG Y H, et al. Relationship between surface water and groundwater in the second Songhua River basin[J]. Advances in Water Science, 2014, 25(3):336-347. 宋献方, 刘鑫, 夏军, 等. 基于氢氧同位素的岔巴沟流域地表水-地下水转化关系研究[J]. 应用基础与工程科学学报, 2009, 17(1):8-20. SONG X F, LIU X, XIA J, et al. Interactions Between Surface Water and Groundwater in Chabagou Catchment Using Hydrogen and Oxygen Isotope[J]. Journal of Basic Science and Engineering, 2009, 17(1):8-20. 孙从建, 陈伟. 基于稳定同位素的海河源区地下水与地表水相互关系分析[J]. 地理科学, 2018, 38(5):790-799. SUN C J, CHEN W. Relationship Between Groundwater and Surface Water Based on Environmental Isotope and Hydrochemistry in Upperstream of the Haihe River Basin. Scientia Geographica Sinica,2018,38 (5):790-799. 王水献, 王云智, 董新光, 等. 开孔河流域浅层地下水矿化度时空变异及特征分析[J]. 水土保持研究, 2007, (02):297-300. WANG S X, WANG Y Z, DONG X G, et al. Study on the Spatio-temporal Variation of Shallow Groundwater Mineralization Degree and Its Characteristic in Kaikong River Basin[J]. Research of Soil and Water Conservation, 2007, (02):297-300. 孙忠伟. 浅析孔雀河中下游一带地下水同位素特征[J]. 西部探矿工程, 2018,32(7):146-147. SUN Z W. Analysis of the Isotopic Characteristics of Groundwater in The Middle and Lower Reaches of Kongque River[J]. West-China Exploration Engineering, 2018,32(7):146-147. 李思亮, 刘丛强, 陶发祥, 等. 碳同位素和水化学在示踪贵阳地下水碳的生物地球化学循环及污染中的应用. 地球化学, 2004, 33(2):165-170. LI S L, LIU C Q, TAO F X, et al. Chemical and stable carbon isotopic compositions of the ground waters of Guiyang City, China:Implications for biogeochemical cycle of carbon and contamination[J]. Geochimica, 2004, 33(2):165-170. 孙厚云,毛启贵,卫晓锋,等. 哈密盆地地下水系统水化学特征及形成演化[J]. 中国地质, 2018, 45(6):1128-1141. SUN Houyun,MAO Qigui,WEI Xiaofeng,et al. Hydrogeochemical characteristics and formation evolutionary mechanism of the groundwater system in the Hami basin[J]. Geology in China, 2018, 45(6):1128-1141(in Chinese with English abstract). 任战利, 肖晖, 韩伟, 等. 孔雀河斜坡与库鲁克隆起构造-热演化史研究[J]. 西北大学学报:自然科学版, 2009, 39(3):510-516. REN Z L, XIOA H, HAN W, et al. Research on basin-mountain tectonic-thermal history of Kongquehe Slope and Kuruketag Uplift[J]. Journal of Northwest University (Natural Science Edition), 2009, 39(3):510-516. 刘阵, 张洪美, 何金有,等. 库鲁克塔格南部山前带中-新生代构造演化史-来自磷灰石裂变径迹的证据[J]. 非常规油气, 2016, 3(4):12-20. LIU Z, ZHANG H M, HE J Y, et al. Meso-Cenozoic Tectonic Evolution History in the Southern Piedmont Zone of Kuruktag-the Evidence Taken from Apatite Fission Track[J]. Unconventional Oil and Gas, 3(4):12-20. 李文鹏, 郝爱兵, 郑跃军. 塔里木盆地区域地下水环境同位素特征及其意义[J]. 地学前缘, 2006, 13(1):191-198. LI W P, HAO A B, ZHENG Y J, et al. Regional environmental isotopic features of groundwater and their hydrogeological explanation in the Tarim Basin[J]. Earth Science Frontiers, 2006, 13(1):191-198. Aucour A M, Sheppard S M F, Guyomar O, et al. Use of 13C to trace origin and cycling of inorganic carbon in the Rhône river system[J]. Chemical Geology, 1999, 159(1-4):87-105. Guay B E, Eastoe C J, Bassett R, et al. Identifying sources of groundwater in the lower Colorado River valley, USA, with δ18O, δD, and 3H:implications for river water accounting[J]. Hydrogeology Journal, 2006, 14(1-2):146-158. Kong Y, Pang Z, Froehlich K. Quantifying recycled moisture fraction in precipitation of an arid region using deuterium excess[J]. Tellus B:Chemical and Physical Meteorology, 2013, 65(1):19251. -
Access History
Export File
Citation
ZHANG Jun, YIN Lihe, GU Xiaofan, LI Ying, YANG Bingchao, JIANG Jun, JIA Wuhui, XIE Wanbing, WANG Tuo, TANG Xiaoping, DONG Jiaqiu, WANG Qian, CHANG Liang. 2021. Study on the Relationship Between Groundwater and Surface Water in Xinjiang Kongque River Basin Using Isotopes and Hydrochemistry method. Northwestern Geology, 54(1): 185-195. doi: 10.19751/j.cnki.61-1149/p.2021.01.016
DownLoad: