浑善达克沙地东部地区天然水体的水化学组成及其控制因素

doi:10.13866/j.azr.2019.04.01

Abstract

Abstract: The East Hunshandak Sandy Land is located in the Inner Mongolia Plateau.Compared with other deserts in West China,water resources in Hunshandak Sandy Land are relatively abundant,even some rivers originate from the sandy land.In this study 24 water samples including 11 groundwater samples,6 lake water samples,5 river water samples and 2 spring water samples were collected from 2011 to 2012.Physical parameters including the pH value,oxidation-reduction potential,electrical conductivity,total dissolved solids and salinity were measured on site with a portable instrument.Major anions(Cl^-,NO^-₃ and SO^2-₄) and cations(Na⁺,K⁺,Mg²⁺,Ca²⁺ and NH⁺₄) were determined by electrochemical detectors of ion chromatography at the Institute of Geology and Geophysics,Chinese Academy of Sciences.The concentration of HCO^-₃ was measured by titration with HCl following Gran Method.The results showed that total dissolved solids(TDS) of water samples ranged from 67 mg·L^-1 to 660 mg·L^-1,which revealed that freshwater was dominant in the natural waters in Hunshandak Sandy Land.Moreover,the concentration of calcium was the highest in cations in almost all water samples,while that of bicarbonate was the highest in anions except for some groundwater and spring water samples.The pH values of groundwater were commonly slightly lower than 7,while those of others,such as lake water,river water and spring water,were slightly higher than 7.In addition,almost all concentrations of cations and anions in groundwater were the highest in natural waters.The hydrochemical types were determined by the original Durov Diagram.The results showed that surface water was dominated by bicarbonate,but groundwater was dominated by bicarbonate,mixed type or sulfate.Gibbs Diagram was used to determine the factors affecting the hydrochemical composition of natural waters.Different from the deserts in the western and central parts of China,where the evaporation was so strong that evaporation-crystallization affected mainly the hydrochemical composition of the natural waters,and the water-rock interaction was the main factor affecting the natural waters in East Hunshandak Sandy Land.Ion ratios in samples indicated that the rock weathering in waters was different.The weathering degree of evaporative salt rock and silicate rock in groundwater is higher,while that of carbonate rock is lower,which may be caused by the insufficient supply of carbon dioxide due to the long water-rock interaction time in groundwater.On the contrary,due to the short water-rock interaction time and sufficient supply of carbon dioxide,the degree of weathering of evaporative and silicate rocks in surface water is low,while that of carbonate rocks is high.

Key words: hydrochemical composition, affecting factor, original Durov Diagram, Gibbs Diagram, ion ratio, Hunshandak Sandy Land

REN Xiao-zong, LI Jian-gang, LIU Min, LI Ji-yan. Hydrochemical Composition of Natural Waters and Its Affecting Factors in the East Hunshandak Sandy Land[J].Arid Zone Research, 2019, 36(4): 791-800.

References

[1] 朱秉启,杨小平.塔克拉玛干沙漠天然水体的化学特征及其成因[J].科学通报,2007,52(13):1561-1566.
[Zhu Bingqi,Yang Xiaoping.Chemical composition of natural waters and its origin in the Taklamakan Desert[J].Chinese Science Bulletin,2007,52(13):1561-1566.]
[2] 张涛,蔡五田,李颖智,等.尼洋河流域水化学特征及其控制因素[J].环境科学,2017,38(11):4537-4545.
[Zhang Tao,Cai Wutian,Li Yingzhi,et al.Major ionic features and their pssible controls in the water of the Niyang River Basin[J].Environmental Science,2017,38(11):4537-4545.]
[3] 邵跃杰,罗光明,王建,等.新疆克里雅河上游主要离子化学特征及其成因[J].干旱区研究,2018,35(5):1021-1029.
[Shao Yuejie,Luo Guangming,Wang Jian,et al.Hydrochemical characteristics and formation causes of main ions in water of the Keriya River,Xinjiang[J].Arid Zone Research,2018,35(5):1021-1029.]
[4] 李会亚,冯起,陈丽娟,等.民勤绿洲灌区地下水水化学特征及其演化驱动机理[J].干旱区研究,2017,34(4):733-740.
[Li Huiya,Feng Qi,Chen Lijuan,et al.Hydrochemical characteristics and evolution mechanism of groundwater in the Minqin Oasis[J].Arid Zone Research,2017,34(4):733-740.]
[5] 张艳,吴勇,杨军,等.阆中市思依镇水化学特征及其成因分析[J].环境科学,2015,36(9):3230-3237.
[Zhang Yan,Wu Yong,Yang Jun,et al.Hydrochemical characteristic and reasoning analysis in Siyi Town,Langzhong City[J].Environmental Science,2015,36(9):3230-3237.]
[6] 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 Xianfang,Li Fadong,Yu Jingjie,et al.Characteristics of groundwater cycle using deuterium,oxygen-18 and hydrochemistry in Chaobai River Basin[J].Geographical Research,2007,26(1):11-21.]
[7] Chen J,Liu X,Wang C,et al.Isotopic constraints on the origin of groundwater in the Ordos Basin of Northern China[J].Environmental Earth Sciences,2012,66(2):505-517.
[8] Chen J,Sun X,Gu W,et al.Isotopic and hydrochemical data to restrict the origin of the groundwater in the Badain Jaran Desert,Northern China[J].Geochemistry International,2012,50(5):455-465.
[9] Ren X,Zhu B,Liu M,et al.Mechanism of groundwater recharge in the middle-latitude desert of eastern Hunshandake,China:Diffuse or focused recharge?[J].Hydrogeology Journal,2019,27(2):761-783.
[10] 魏亚平,范敬龙,徐新文,等.塔克拉玛干沙漠南部地下水化学演化模拟[J].中国沙漠,2016,36(3):798-804.
[Wei Yaping,Fan Jinglong,Xu Xinwen,et al.Hydrogeochemical modelling of groundwater chemical evolution from southern margin to Hinterland of Taklamakan Desert[J].Journal of Desert Research,2016,36(3):798-804.]
[11] 丁贞玉,马金珠,何建华.腾格里沙漠西南缘地下水水化学形成特征及演化[J].干旱区地理,2009,32(6):948-957.
[Ding Zhenyu,Ma Jinzhu,He Jianhua.Geochemical evolution of groundwater in the southwest of Tengger Desert,NW of China[J].Arid Land Geography,2009,32(6):948-957.]
[12] 党慧慧,董军,岳宁,等.贺兰山以北乌兰布和沙漠地下水水化学特征演化规律研究[J].冰川冻土,2015,37(3):793-802.
[Dang Huihui,Dong Jun,Yue Ning,et al.Study of the evolution of hydrochemical properties of groundwater in Ulan Buh Desert in the north of the Helan Mountains[J].Journal of Glaciology and Geocryology,2015,37(3):793-802.]
[13] 靳鹤龄,苏志珠,孙良英,等.浑善达克沙地全新世气候变化[J].科学通报,2004,49(15):1532-1536.
[Jin Heling,Su Zhizhu,Sun Liangying,et al.Climate change in Holocene,Hunshandake Sandy Land[J].Chinese Science Bulletin,2004,49(15):1532-1536.]
[14] 张洪,靳鹤龄,苏志珠,等.全新世浑善达克沙地粒度旋回及其反映的气候变化[J].中国沙漠,2005,25(1):1-7.
[Zhang Hong,Jin Heling,Su Zhizhu,et al.Climate changes revealed by grain-size cycles of Holocene in Hunshandake Desert[J].Journal of Desert Research,2005,25(1):1-7.]
[15] Yang X,Li H,Conacher A.Large-scale controls on the development of sand seas in Northern China[J].Quaternary International,2012,250:74-83.
[16] 朱震达,吴正,刘恕,等.中国沙漠概论[M].北京:科学出版社,1980.
[Zhu Zhenda,Wu Zheng,Liu Shu,et al.An Outline of Chinese Deserts[M].Beijing:Science Press,1980.]
[17] Yang X,Zhu B,Wang X,et al.Late Quaternary environmental changes and organic carbon density in the Hunshandake Sandy Land,Eastern Inner Mongolia,China[J].Global and Planetary Change,2008,61(1-2):70-78.
[18] Liu Z,Yang X.Geochemical-geomorphological evidence for the provenance of aeolian sands and sedimentary environments in the Hunshandake Sandy Land,Eastern Inner Mongolia,China[J].Acta Geologica Sinica,2013,87(3):871-884.
[19] Yang X,Wang X,Liu Z,et al.Initiation and variation of the dune fields in semi-arid China:With a special reference to the Hunshandake Sandy Land,Inner Mongolia[J].Quaternary Science Reviews,2013,78:369-380.
[20] Su Hua,Li Yonggeng,Lan Zhenjiang,et al.Leaf-level plasticity of Salix gordejevii in fixed dunes compared with lowlands in Hunshandake Sandland,North China[J].Journal of Plant Research,2009,122(6):611.
[21] 国家地质总局水文地质工程地质研究所.中华人民共和国水文地质图集[M].北京:地图出版社,1979.
[Institute of Hydrogeology and Engineering Geology,State Geological Administration.Hydrogeological Atlas of the People’s Republic of China[M].Beijing:China Cartographic Publishing House,1979.]
[22] Gran G.Determination of the equivalence point in potentiometric titrations.Part II[J].Analyst,1952,77:661-671.
[23] Yang X,Williams J.The ion chemistry of lakes and late Holocene desiccation in the Badain Jaran Desert,Inner Mongolia,China[J].Catena,2003,51(1):45-60.
[24] Zaporozec A.Graphical interpretation of water-quality data[J].Ground Water,1972,10(2):32-43.
[25] 任孝宗,刘敏,张迎珍,等.基于Matlab的Durov三线图的实现[J].干旱区地理,2018,41(4):744-750.
[Ren Xiaozong,Liu Min,Zhang Yingzhen,et al.Plotting Durov diagram based on Matlab[J].Arid Land Geography,2018,41(4):744-750.]
[26] Gibbs R J.Mechanisms controlling world water chemistry[J].Science,1970,170(3962):1088-1090.
[27] Wen X,Wu Y,Su J,et al.Hydrochemical characteristics and salinity of groundwater in the Ejina Basin,Northwestern China[J].Environmental Geology,2005,48(6):665-675.
[28] 魏水莲,刘新平,赵学勇,等.科尔沁沙地奈曼地区地下水水质时空变化特征[J].中国沙漠,2017,37(3):571-579.
[Wei Shuilian,Liu Xinping,Zhao Xueyong,et al.Spatial and temporal variability analysis of groundwater quality in Naiman Region of Horqin Sandy Land[J].Journal of Desert Research,2017,37(3):571-579.]
[29] 唐玺雯,吴锦奎,薛丽洋,等.锡林河流域地表水水化学主离子特征及控制因素[J].环境科学,2014,35(1):131-142.
[Tang Xiwen,Wu Jinkui,Xue Liyang,et al.Major ion chemistry of surface water in the Xilin River Basin and the possible controls[J].Environmental Science,2014,35(1):131-142.]
[30] Garrels R M,Mackenzie F T.Evolution of Sedimentary Rocks[M].New York:W.W.Norton and Company,1971.
[31] Stumm W.Chemistry of the Solid-Water Interface:Processes at the Mineral-Water and Particle-Water Interface in Natural Systems[M].New York:Wiley,1992.
[32] Zhu B,Yang X.The ion chemistry of surface and ground waters in the Taklimakan Desert of Tarim Basin,Western China[J].Chinese Science Bulletin,2007,52(15):2123-2129.
[33] Zhang L,Song X,Xia J,et al.Major element chemistry of the Huai River basin,China[J].Applied Geochemistry,2011,26(3):293-300.
[34] Chen J,Wang F,Xia X,et al.Major element chemistry of the Changjiang(Yangtze River)[J].Chemical Geology,2002,187(3-4):231-255.
[35] Ahmad T,Khanna P P,Chakrapani G J,et al.Geochemical characteristics of water and sediment of the Indus River,Trans-Himalaya,India:Constraints on weathering and erosion[J].Journal of Asian Earth Sciences,1998,16(2-3):333-346.
[36] 王亚平,王岚,许春雪,等.长江水系水文地球化学特征及主要离子的化学成因[J].地质通报,2010,29(2-3):446-456.
[Wang Yaping,Wang Lan,Xu Chunxue,et al.Hydro-geochemistry and genesis of major ions in the Yangtze River,China[J].Geological Bulletin of China,2010,29(2-3):446-456]
[37] 李亚文,韩蔚田.蒸发岩成因的物理化学研究[J].地学前缘,1994,1(3-4):211-215,210.
[Li Yawen,Han Weitian.A review of physicochemicl study on the origin of evaporite[J].Earth Science Frontiers,1994,1(3-4):211-215,210.]
[38] Appelo C A J,Postma D.Geochemistry,Groundwater and Pollution,Second Edition[M]. Amsterdam:Taylor & Francis,2005.
[39] 吕婕梅,安艳玲,吴起鑫,等.贵州清水江流域丰水期水化学特征及离子来源分析[J].环境科学,2015,36(5):1565-1572.
[Lü Jiemei,An Yanling,Wu Qixin,et al.Hydrochemical characteristics and sources of Qingshuijiang River Basin at wet season in Guizhou Province[J].Environmental Science,2015,36(5):1565-1572.]

Hydrochemical Composition of Natural Waters and Its Affecting Factors in the East Hunshandak Sandy Land

PDF (PC)

Like

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 9

Metrics

Comments

Recommended 0

[1]	XIE Yucai, LIU Hao, ZHAO Fengnian, ZHANG Lei, ZHAO Xin, SHI Zhuo, WANG Xingpeng. Effects of irrigation water mineralization and sodium adsorption ratio on the growth and yield of drip-irrigated cotton under film [J]. Arid Zone Research, 2024, 41(12): 2071-2082.
[2]	Ailihamu Aikelamu,ZHOU Jinlong,ZHANG Jie,WEI Xing,YU Dong,CHEN Jinsong. Chemical characteristics and genesis analysis of groundwater in northwest Yili River Valley [J]. Arid Zone Research, 2021, 38(2): 504-512.
[3]	LI Xue-mei, ZHANG Qing. Factors Affecting Carbon Emission from Energy Consumption in Tianjin [J]. Arid Zone Research, 2019, 36(4): 997-1004.
[4]	YU De-liang, LEI Ze-yong, ZHANG Yan-song, YU Dong-wei, ZHOU Yan-ping, JIANG Ji-wen. Soil Enzyme Activity and Its Affecting Factors under Pinus sylvestris var. mongolica Plantation in Sandy Land [J]. Arid Zone Research, 2019, 36(3): 621-629.
[5]	PEI Zhi-lin, YANG Qin-ke, WANG Chun-mei, PANG Guo-wei, YANG Li-hua. Spatial Distribution of Vegetation Coverage and Its Affecting Factors in the Upper Reaches of the Yellow River [J]. Arid Zone Research, 2019, 36(3): 546-555.
[6]	ZHANG Yan-fang, LI Xin-qiao. Correlation between Industrial Carbon Emission and Its Affecting Factors—A Study Based on Empirical Analysis of Panel Data from the Five Provinces and Autonomous Regions in Northwest China [J]. , 2014, 31(3): 424-430.
[7]	ZHAO Juan, ZHAO Yuan-jie, XIA Xun-cheng. Analysis on Extreme Climate Events Recorded in Tamarix spp. Dune and Their Affecting Factors in the Lop Nur Lake Region [J]. Arid Zone Research, 2012, 29(6): 1094-1099.
[8]	WANG Gang, YAN Deng-Hua, HUANG Zhan-Feng, JIN Xin, Piao Shu-Ming. Analysis on the Long-term Evolution of Runoff Volume and Its Affecting Factors in the Luanhe River Basin [J]. , 2011, 28(6): 998-1004.
[9]	ZHANG Jiang-hui, BAI Yun-gang, ZHANG Sheng-jiang, CAO Wei. Effect of Two Kinds of Soil Ameliorant on Saline Soil Improvement and Cotton Growth [J]. , 2011, 28(3): 384-388.