|本期目录/Table of Contents|

[1]吴志豪,高燕燕,温芮,等.秦岭北麓沣河流域地下水-地表水化学特征及转化关系[J].地球科学与环境学报,2024,46(03):334-350.[doi:10.19814/j.jese.2024.02009]
 WU Zhi-hao,GAO Yan-yan,WEN Rui,et al.Chemical Characteristics and Transformation Relationship of Groundwater and SurfaceWater in Fenghe River Basin at the NorthernFoot of Qinling Mountains, China[J].Journal of Earth Sciences and Environment,2024,46(03):334-350.[doi:10.19814/j.jese.2024.02009]
点击复制

秦岭北麓沣河流域地下水-地表水化学特征及转化关系(PDF)
分享到:

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

卷:
第46卷
期数:
2024年第03期
页码:
334-350
栏目:
水资源与水文地质
出版日期:
2024-05-15

文章信息/Info

Title:
Chemical Characteristics and Transformation Relationship of Groundwater and SurfaceWater in Fenghe River Basin at the NorthernFoot of Qinling Mountains, China
文章编号:
1672-6561(2024)03-0334-17
作者:
吴志豪123高燕燕123温芮123钱会123*洪敏4
(1. 长安大学 水利与环境学院,陕西 西安 710054; 2. 长安大学 旱区地下水水文与生态效应教育部重点实验室,陕西 西安 710054; 3. 长安大学 水利部旱区生态水文与水安全重点实验室,陕西 西安 710054; 4. 自然资源陕西省卫星技术应用中心,陕西 西安 710154)
Author(s):
WU Zhi-hao123 GAO Yan-yan123 WEN Rui123 QIAN Hui123* HONG Min4
(1. School of Water and Environment, Chang'an University, Xi'an 710054, Shaanxi, China; 2. KeyLaboratory of SubsurfaceHydrology and Ecological Effect in Arid Region of Ministry ofEducation, Chang'anUniversity, Xi'an 710054, Shaanxi, China; 3. Key Laboratoryof Eco-hydrology andWater Security inArid and Semi-arid Regions ofMinistry of Water Resources, Chang'an University, Xi'an 710054, Shaanxi, China; 4. Shaanxi Satellite Application Technology Center for Natural Resources, Xi'an 710154, Shaanxi, China)
关键词:
水化学 影响因素 转化关系 地下水-地表水 离子比 补给比例 氢氧同位素 渭河流域
Keywords:
waterchemistry influencing factor transformation relationship groundwater-surface water ion ratio recharge ratio hydrogen and oxygen isotopes Weihe River Basin
分类号:
P64
DOI:
10.19814/j.jese.2024.02009
文献标志码:
A
摘要:
秦岭北麓沣河是“长安八水”之一,对其水环境现状、影响因素及地表水-地下水转化关系进行深入研究是河流生态修复的关键。根据2022年7月在沣河流域采集的62个地下水样和17个地表水样的分析结果,采用数理统计法、Piper图、Gibbs图、离子比法和氢氧同位素分析了地下水和地表水化学特征及其影响因素,探究了地下水和地表水的转化关系。结果表明:①研究区地下水为弱碱性,约有50%为极硬水、25%为硬水,溶解性总固体(TDS)较大,最大值高达1 916 mg?L-1,NO-3浓度较高; 地表水为弱碱性,为软水或微硬水,溶解性总固体较小,有机物含量较高; 地表水和地下水阳离子均以Ca2+为主,阴离子均以HCO-3为主,地表水基本是HCO3-Ca型水; 地下水化学类型主要有HCO3-Ca、HCO3?SO4-Ca、HCO3-Ca?Mg和HCO3?SO4-Ca?Mg型,分别占比24.19%、24.19%、16.13%和9.68%,且水化学类型空间变化较大。②研究区水化学特征主要受到岩石风化作用的控制,蒸发浓缩和大气降水也有一定影响; 水中Na+除岩盐溶解外,还有硅酸盐风化的影响,Ca2+、Mg2+和HCO-3主要来源于方解石、白云石等碳酸盐的风化溶解; 地下水中阳离子交替吸附作用普遍发生,对Ca2+和Na+浓度影响较大; 人类活动增加了部分地下水中SO2-4、NO-3和Cl-浓度,相比之下地表水受到人类活动的影响较小。③研究区洪积扇扇顶-扇中主要是地表水补给地下水,补给比例为46.62%; 洪积扇前缘主要是地下水补给地表水,补给比例为13.62%; 下游平原主要是地表水补给地下水,补给比例为38.39%。
Abstract:
The Fenghe River is one of the “Eight Waters of Chang'an”, and in-depth research on the status quo of its water environment,influencing factors, and the relationship between surface water and groundwater transformation is the key to the ecological restoration of the river. Based on 62 groundwater samples and 17 surface water samples collected in Fenghe River Basin in July 2022, the chemical characteristics and influencing factors of groundwater and surface water were analyzed by mathematical statistics, Piper diagram, Gibbs diagram, ion ratio method andhydrogen and oxygenisotopes,and the transformation relationship between groundwater and surface water was explored. The results show that ① the groundwater in the study area is weakly alkaline, about 50% is extremely hard water, 25% is hard water, and the total dissolved solids(TDS)is large, the maximum value is as high as 1 916 mg?L-1, andNO-3concentrationis high; surface water is weakly alkaline, soft or slightly hard water, with less TDS and more organic matter; the cations of surface water and groundwater are mainly Ca2+, the anions are mainlyHCO-3, and the surface water is basicallyHCO3-Cawater; the main chemical types of groundwater areHCO3-Ca,HCO3? SO4-Ca,HCO3-Ca? Mg andHCO3? SO4-Ca? Mgtypes accounted for 24.19%, 24.19%, 16.13% and 9.68%, respectively, and the spatial variation of water chemistry type is large. ② Thewaterchemical characteristics of the study area are mainly controlled by rock weathering, and evaporation concentration and atmospheric precipitation are also affected; in addition to the dissolution of rock salt, Na+ in water should also be affected by silicate weathering, and Ca2+, Mg2+ andHCO-3 mainly come from the weathering and dissolution of carbonates such as calcite and dolomite; the alternating adsorption of cations in groundwater is common, which has a great impact onCa2+ and Na+concentrations; human activities have increased the concentrations of SO2-4, NO-3 and Cl- in some groundwaters, while surface water is less affected by human activities. ③ The surface water is mainly used to recharge groundwater in the alluvial fan top-middle in the study area, and the recharge ratio is 46.62%; the leading edge of the alluvial fan is mainly recharged by groundwater for surface water, and the recharge ratio is 13.62%; the lower plain is mainly recharged by surface water to groundwater, with a recharge ratio of 38.39%.

参考文献/References:

[1] 钱 会,马致远.水文地球化学[M].北京:地质出版社,2005.
QIAN Hui,MA Zhi-yuan.Hydrogeochemistry[M].Beijing:Geological Publishing House,2005.
[2]沈照理.水文地球化学基础[M].北京:地质出版社,1986.
SHEN Zhao-li.Fundamentals of Hydrogeochemistry[M].Beijing:Geological Publishing House,1986.
[3]白 华,杨会峰,孟瑞芳,等.保定平原区地下水化学特征及演化[J].地质论评,2023,69(6):2216-2228.
BAI Hua,YANG Hui-feng,MENG Rui-fang,et al.Chemical Characteristics and Evolution of Groundwater in Baoding Plain[J].Geological Review,2023,69(6):2216-2228.
[4]韩朝辉,王郅睿,田 辉,等.汉中盆地地下水水化学特征及其成因研究[J].西北地质,2023,56(4):263-273.
HAN Chao-hui,WANG Zhi-rui,TIAN Hui,et al.Hydrochemical Characteristics and Genesis of Groundwater in the Hanzhong Basin[J].Northwestern Geology,2023,56(4):263-273.
[5]李冬丽,贺海波,张雪程,等.柴达木盆地东北部巴音河小流域水化学特征及来源[J].地球科学与环境学报,2023,45(3):749-759.
LI Dong-li,HE Hai-bo,ZHANG Xue-cheng,et al.Hydrochemical Characteristics and Sources of Small Bayin River Watershed in the Northeast of Qaidam Basin,China[J].Journal of Earth Sciences and Environment,2023,45(3):749-759.
[6]李星辰,王 婷,李晓波,等.肥城市城区水源地水化学特征及影响因素分析[J].环境工程,2023,41(增2):108-113.
LI Xing-chen,WANG Ting,LI Xiao-bo,et al.Hydrochemistry Characteristics and Formation Mechanism of Water Source in Urban Area of Feicheng[J].Environmental Engineering,2023,41(S2):108-113.
[7]刘 海,康 博,管政亭,等.淮南煤矿区地表水和地下水水化学特征及控制因素[J].环境科学,2023,44(11):6038-6049.
LIU Hai,KANG Bo,GUAN Zheng-ting,et al.Hydrochemical Characteristics and Control Factors of Surface Water and Groundwater in Huainan Coal Mine Area[J].Environmental Science,2023,44(11):6038-6049.
[8]石万鹏,刘景涛,李 备,等.青藏高原盐湖地区水化学特征及成因分析[J].环境化学,2023,42(1):101-112.
SHI Wan-peng,LIU Jing-tao,LI Bei,et al.Hydrochemical Characteristics and Solute Sources of the Yanhu Areas on the Qinghai-Tibet Plateau[J].Environmental Chemistry,2023,42(1):101-112.
[9]陶兰初,寸得欣,涂春霖,等.珠江源块泽河流域地表水水化学特征及控制因素[J].环境科学,2023,44(11):6025-6037.
TAO Lan-chu,CUN De-xin,TU Chun-lin,et al.Hydrochemical Characteristics and Control Factors of Surface Water in Kuaize River Basin at the Upper Pearl River[J].Environmental Science,2023,44(11):6025-6037.
[10]艳 艳,高瑞忠,刘廷玺,等.西北盐湖流域地下水水化学特征及控制因素[J].环境科学,2023,44(12):6767-6777.
YAN Yan,GAO Rui-zhong,LIU Ting-xi,et al.Hydrochemical Characteristics and Control Factors of Groundwater in the Northwest Salt Lake Basin[J].Environmental Science,2023,44(12):6767-6777.
[11]ISMAIL S,AHMED M F.Hydrogeochemical Characterization of the Groundwater of Lahore Region Using Supervised Machine Learning Technique[J].Environmental Monitoring and Assessment,2022,195(1):5.
[12]KAMTCHUENG B T,FANTONG W Y,UEDA A,et al.Assessment of Shallow Groundwater in Lake Nyos Catchment(Cameroon,Central-Africa):Implications for Hydrogeochemical Controls and Uses[J].Environmental Earth Sciences,2014,72(9):3663-3678.
[13]KURA N U,RAMLI M F,SULAIMAN W N A,et al.Evaluation of Factors Influencing the Ground-water Chemistry in a Small Tropical Island of Malaysia[J].International Journal of Environmental Research and Public Health,2013,10(5):1861-1881.
[14]MASINDI K,ABIYE T.Assessment of Natural and Anthropogenic Influences on Regional Groundwater Chemistry in a Highly Industrialized and Urbanized Region:A Case Study of the Vaal River Basin,South Africa[J].Environmental Earth Sciences,2018,77(20):722.
[15]NAKAGAWA K,AMANO H,BERNDTSSON R.Spatial Characteristics of Groundwater Chemistry in Unzen,Nagasaki,Japan[J].Water,2021,13(4):426.
[16]NIGATE F,YENEHUN A,BELAY A S,et al.Hydrogeochemical Processes and Groundwater Evolution in Complex Volcanic Highlands and Alluvio-lacustrine Deposits(Upper Blue Nile),Ethiopia[J].Environmental Science and Pollution Research,2023,30(23):63953-63974.
[17]OKOFO L B,ANDERSON N A,BEDU-ADDO K,et al.Hydrochemical Peculiarities and Groundwater Quality Assessment of the Birimian and Tarkwaian Aquifer Systems in Bosome Freho District and Bekwai Municipality of the Ashanti Region,Ghana[J].Environmental Earth Sciences,2021,80(24):818.
[18]ABDELSHAFY M,SABER M,ABDELHALEEM A,et al.Hydrogeochemical Processes and Evaluation of Groundwater Aquifer at Sohag City,Egypt[J].Scientific African,2019,6:e00196.
[19]REGHAIS A,DROUICHE A,ZAHI F,et al.Hydrogeochemical Evaluation of the Terminal Complex Aquifer System in an Arid Area:A Case Study from the Biskra Region,North-east Algeria[J].Environmental Earth Sciences,2023,82(7):182.
[20]庄思蝶,周晓成,李鹏飞,等.新疆塔什库尔干断裂带温泉环境地球化学特征[J].地球科学与环境学报,2022,44(4):699-712.
ZHUANG Si-die,ZHOU Xiao-cheng,LI Peng-fei,et al.Environmental Hydrogeochemical Characteristics of Hot Springs in Tashkurgan Fault Zone of Xinjiang,China[J].Journal of Earth Sciences and Environment,2022,44(4):699-712.
[21]赵春红,申豪勇,王志恒,等.汾河流域地表水水化学同位素特征及其影响因素[J].环境科学,2022,43(10):4440-4448.
ZHAO Chun-hong,SHEN Hao-yong,WANG Zhi-heng,et al.Hydrochemical and Isotopic Characteristics in the Surface Water of the Fenhe River Basin and Influence Factors[J].Environmental Science,2022,43(10):4440-4448.
[22]雷 米,周金龙,张 杰,等.新疆博尔塔拉河流域平原区地表水与地下水水化学特征及转化关系[J].环境科学,2022,43(4):1873-1884.
LEI Mi,ZHOU Jin-long,ZHANG Jie,et al.Hydrochemical Characteristics and Transformation Relationship of Surface Water and Groundwater in the Plain Area of Bortala River Basin,Xinjiang[J].Environmental Science,2022,43(4):1873-1884.
[23]刘 兵,王 贺,姜永海,等.基于水化学和氢氧同位素的东宫河流域不同水体转化关系研究[J].环境科学研究,2020,33(9):1979-1990.
LIU Bing,WANG He,JIANG Yong-hai,et al.Transformation Relationship of Different Water Body in Donggong River Basin Based on Hydrochemistry and Hydrogen-oxygen Isotopes[J].Research of Environmental Sciences,2020,33(9):1979-1990.
[24]许秀丽,李云良,高 博,等.黄河中游汾河入黄口湿地水源组成与地表地下水转化关系[J].湖泊科学,2022,34(1):247-261.
XU Xiu-li,LI Yun-liang,GAO Bo,et al.Composition of Water Sources and Transformation Relationship Between Surface Water and Groundwater in the Fenhe River Estuarine Wetland of the Middle Yellow River[J].Journal of Lake Sciences,2022,34(1):247-261.
[25]杨 楠,苏春利,曾邯斌,等.基于水化学和氢氧同位素的兴隆县地下水演化过程研究[J].水文地质工程地质,2020,47(6):154-162.
YANG Nan,SU Chun-li,ZENG Han-bin,et al.Evolutional Processes of Groundwater in Xinglong County Based on Hydrochemistry and Hydrogen and Oxygen Isotopes[J].Hydrogeology & Engineering Geology,2020,47(6):154-162.
[26]刘 敏,赵良元,李青云,等.长江源区主要河流水化学特征、主要离子来源[J].中国环境科学,2021,41(3):1243-1254.
LIU Min,ZHAO Liang-yuan,LI Qing-yun,et al.Hydrochemical Characteristics,Main Ion Sources of Main Rivers in the Source Region of Yangtze River[J].China Environmental Science,2021,41(3):1243-1254.
[27]何启欣,曹广超,曹生奎,等.香日德—柴达木河流域水体氢氧稳定同位素特征及影响因素研究[J].干旱区研究,2022,39(3):820-828.
HE Qi-xin,CAO Guang-chao,CAO Sheng-kui,et al.Hydrogen-oxygen Isotope Characteristics of Water Bodies in the Xiangride-Qaidam River Basin and Its Influencing Factors[J].Arid Zone Research,2022,39(3):820-828.
[28]黄 静,周忠发,丁圣君,等.双河洞流域氢氧同位素特征及其指示意义[J].地球与环境,2022,50(4):516-525.
HUANG Jing,ZHOU Zhong-fa,DING Sheng-jun,et al.Hydrogen and Oxygen Isotope Characteristics and Their Indicative Significance in Shuanghe Cave Basin[J].Earth and Environment,2022,50(4):516-525.
[29]刘 鑫,向 伟,司炳成.汾河流域浅层地下水水化学和氢氧稳定同位素特征及其指示意义[J].环境科学,2021,42(4):1739-1749.
LIU Xin,XIANG Wei,SI Bing-cheng,et al.Hydrochemical and Isotopic Characteristics in the Shallow Groundwater of the Fenhe River Basin and Indicative Significance[J].Environmental Science,2021,42(4):1739-1749.
[30]张清华,赵玉峰,唐家良,等.京津冀西北典型流域地下水化学特征及补给源分析[J].自然资源学报,2020,35(6):1314-1325.
ZHANG Qing-hua,ZHAO Yu-feng,TANG Jia-liang,et al.Hydrochemistry Characteristics and the Recharge Source of Groundwater in Typical Watersheds of Beijing-Tianjin-Hebei Region,China[J].Journal of Natural Resources,2020,35(6):1314-1325.
[31]孙季珲,于一雷,马牧源,等.可鲁克湖—托素湖流域水化学和同位素特征研究[J].环境科学与技术,2023,46(8):1-14.
SUN Ji-hui,YU Yi-lei,MA Mu-yuan,et al.Stable Isotope and Hydrochemical Characteristics of Surface Water and Their Indicative Significance in Keluke-Tuosu Lake Basin[J].Environmental Science & Technology,2023,46(8):1-14.
[32]李培月.人类活动影响下地下水环境研究:以宁夏卫宁平原为例[D].西安:长安大学,2014.
LI Pei-yue.Research on Groundwater Environment Under Human Interferences:A Case Study from Weining Plain,Northwest China[D].Xi'an:Chang'an University,2014.
[33]李晓波,李 静.大汶河流域中下游浅层地下水水化学特征及其影响因素[J].环境科学研究,2024,37(5):1015-1026.
LI Xiao-bo,LI Jing.Hydrochemical Characteristics and Influencing Factors of Shallow Groundwater in the Middle and Lower Reaches of the Dawen River Basin[J].Research of Environmental Sciences,2024,37(5):1015-1026.
[34]李书鉴,韩 晓,王文辉,等.无定河流域地表水地下水的水化学特征及控制因素[J].环境科学,2022,43(1):220-229.
LI Shu-jian,HAN Xiao,WANG Wen-hui,et al.Hydrochemical Characteristics and Controlling Factors of Surface Water and Groundwater in Wuding River Basin[J].Environmental Science,2022,43(1):220-229.
[35]PIPER A M.A Graphic Procedure in the Geochemical Interpretation of Water-analyses[J].Eos,Transactions American Geophysical Union,1944,25(6):914-928.
[36]GIBBS R J.Mechanisms Controlling World Water Chemistry[J].Science,1970,170:1088-1090.
[37]GAILLARDET J,DUPRÉ B,LOUVAT P,et al.Global Silicate Weathering and CO2 Consumption Rates Deduced from the Chemistry of Large Rivers[J].Chemical Geology,1999,159(1/2/3/4):3-30.
[38]白 凡,周金龙,曾妍妍.吐鲁番盆地平原区地下水水化学特征及水质评价[J].干旱区研究,2022,39(2):419-428.
BAI Fan,ZHOU Jin-long,ZENG Yan-yan.Hydrochemical Characteristics and Quality of Groundwater in the Plains of the Turpan Basin[J].Arid Zone Research,2022,39(2):419-428.
[39]陈京鹏,蒋书杰,杨询昌,等.大沽河流域上游水化学特征及其控制因素研究[J].地质论评,2022,68(5):1853-1862.
CHEN Jing-peng,JIANG Shu-jie,YANG Xun-chang,et al.Study on Hydrochemical Characteristics and Controlling Factors of the Upper Reach of Dagu River Basin[J].Geological Review,2022,68(5):1853-1862.
[40]丁启振,雷 米,周金龙,等.博尔塔拉河上游河谷地区水化学特征及水质评价[J].干旱区研究,2022,39(3):829-840.
DING Qi-zhen,LEI Mi,ZHOU Jin-long,et al.An Assessment of Groundwater,Surface Water,and Hydrochemical Characteristics in the Upper Valley of the Bortala River[J].Arid Zone Research,2022,39(3):829-840.
[41]ZHANG Y T,HOU K,QIAN H,et al.Characterization of Soil Salinization and Its Driving Factors in a Typical Irrigation Area of Northwest China[J].Science of the Total Environment,2022,837:155808.
[42]李海明,李梦娣,肖 瀚,等.天津平原区浅层地下水水化学特征及碳酸盐风化碳汇研究[J].地学前缘,2022,29(3):167-178.
LI Hai-ming,LI Meng-di,XIAO Han,et al.Hydrochemical Characteristics of Shallow Groundwater and Carbon Sequestration in the Tianjin Plain[J].Earth Science Frontiers,2022,29(3):167-178.
[43]金 阳,姜月华,董贤哲,等.浙江宁波平原地下水水化学特征及其生态环境效应[J].中国地质,2022,49(5):1527-1542.
JIN Yang,JIANG Yue-hua,DONG Xian-zhe,et al.Chemical Characteristics and Eco-environmental Effect of Groundwater in Ningbo Plain,Zhejiang Province[J].Geology in China,2022,49(5):1527-1542.
[44]GAO Y Y,QIAN H,HUO C C,et al.Assessing Natural Background Levels in Shallow Groundwater in a Large Semiarid Drainage Basin[J].Journal of Hydrology,2020,584:124638.
[45]CHEN J,GAO Y Y,QIAN H,et al.Insights into Water Sustainability from a Grey Water Footprint Perspective in an Irrigated Region of the Yellow River Basin[J].Journal of Cleaner Production,2021,316:128329.
[46]CHEN J,GAO Y Y,QIAN H,et al.Hydrogeochemical Evidence for Fluoride Behavior in Groundwater and the Associated Risk to Human Health for a Large Irrigation Plain in the Yellow River Basin[J].Science of the Total Environment,2021,800:149428.
[47]GAO Y Y,QIAN H,REN W H,et al.Hydrogeochemical Characterization and Quality Assessment of Groundwater Based on Integrated-weight Water Quality Index in a Concentrated Urban Area[J].Journal of Cleaner Production,2020,260:121006.
[48]JIA H,HOWARD K,QIAN H.Use of Multiple Isotopic and Chemical Tracers to Identify Sources of Nitrate in Shallow Groundwaters Along the Northern Slope of the Qinling Mountains,China[J].Applied Geochemistry,2020,113:104512.
[49]孔晓乐,杨永辉,曹 博,等.永定河上游地表水-地下水水化学特征及其成因分析[J].环境科学,2021,42(9):4202-4210.
KONG Xiao-le,YANG Yong-hui,CAO Bo,et al.Hydrochemical Characteristics and Factors of Surface Water and Groundwater in the Upper Yongding River Basin[J].Environmental Science,2021,42(9):4202-4210.
[50]魏信祥,杨周白露,许乃政.极端洪涝作用下江西乐安河沿岸地下水化学组分特征及来源分析[J].水资源与水工程学报,2023,34(5):52-60.
WEI Xin-xiang,YANG Zhou-bai-lu,XU Nai-zheng.Characteristics and Sources of Chemical Components in Groundwater Along the Le'an River of Jiangxi Province Under an Extreme Flood Event[J].Journal of Water Resources & Water Engineering,2023,34(5):52-60.
[51]邹嘉文,刘 飞,张靖坤.南水北调典型受水区浅层地下水水化学特征及成因[J].中国环境科学,2022,42(5):2260-2268.
ZOU Jia-wen,LIU Fei,ZHANG Jing-kun.Hydrochemical Characteristics and Formation Mechanism of Shallow Groundwater in Typical Water-receiving Areas of the South-to-north Water Diversion Project[J].China Environmental Science,2022,42(5):2260-2268.
[52]杨延梅,张 田,郑明霞,等.基于水化学及当地稳定同位素的地下水硝酸盐污染空间分布特征及污染源解析[J].环境科学研究,2021,34(9):2164-2172.
YANG Yan-mei,ZHANG Tian,ZHENG Ming-xia,et al.Spatial Distribution Characteristics and Pollution Source Analysis of Nitrate Pollution in Ground-water Based on Hydrochemistry and Local Stable Isotopes[J].Research of Environmental Sciences,2021,34(9):2164-2172.
[53]陈瑞洁.基于恢复性环境理论的西咸新区沣河滨河景观设计[D].西安:西安建筑科技大学,2023.
CHEN Rui-jie.Landscape Design of Fenghe Riverside in Xixian New Area Based on the Theory of Restorative Environment[D].Xi'an:Xi'an University of Architecture and Technology,2023.
[54]张 媛.沣河流域水环境质量评价及富营养化风险分析[D].西安:长安大学,2020.
ZHANG Yuan.Water Environment Quality Assessment and Eutrophication Risk in Fenghe Basin[D].Xi'an:Chang'an University,2020.
[55]吉卫波,赵银鑫,虎博文,等.宁夏苦水河流域地表水与地下水转化关系研究[J].干旱区地理,2023,46(10):1612-1621.
JI Wei-bo,ZHAO Yin-xin,HU Bo-wen.et al.Transformation Relationship Between Surface Water and Groundwater in Kushui River Basin of Ningxia[J].Arid Land Geography,2023,46(10):1612-1621.
[56]祁晓凡,李文鹏,崔虎群,等.黑河流域中游盆地地表水与地下水转化机制研究[J].水文地质工程地质,2022,49(3):29-43.
QI Xiao-fan,LI Wen-peng,CUI Hu-qun,et al.Study on the Conversion Mechanism of Surface Water and Groundwater in the Middle Reaches of the Heihe Ri-ver Basin[J].Hydrogeology & Engineering Geology,2022,49(3):29-43.
[57]JIA H,QIAN H,ZHENG L,et al.Alterations to Groundwater Chemistry Due to Modern Water Transfer for Irrigation Over Decades[J].Science of the Total Environment,2020,717:137170.
[58]王大纯,张人权,史毅虹,等.水文地质学基础[M].北京:地质出版社,1986.
WANG Da-chun,ZHANG Ren-quan,SHI Yi-hong,et al.Fundamentals of Hydrogeology[M].Beijing:Geological Publishing House,1986.
[59]JIA H,QU W G,REN W H,et al.Impacts of Chemical Weathering and Human Perturbations on Dissolved Loads of the Wei River,the Yellow River Catchment[J].Journal of Hydrology,2021,603:126950.
[60]高福翔,徐东升,周金龙,等.新疆博尔塔拉河中游地表水与地下水转化关系及原因[J].干旱区研究,2023,40(11):1754-1764.
GAO Fu-xiang,XU Dong-sheng,ZHOU Jin-long,et al.Relationship and Cause of Surface Water and Groundwater Transformation in the Middle Reaches of Bortala River,Xinjiang[J].Arid Zone Research,2023,40(11):1754-1764.

相似文献/References:

[1]张汪明,曾溅辉,李飞,等.柴西地区古近系和新近系地层水化学特征及其成因[J].地球科学与环境学报,2016,38(04):558.
 ZHANG Wang-ming,ZENG Jian-hui,LI Fei,et al.Hydrochemistry Characteristics and Origin of Formation Water of Paleogene and Neogene in the Western Qaidam Basin[J].Journal of Earth Sciences and Environment,2016,38(03):558.
[2]彭弋倪,陈旸,李石磊.辽河流域岩石风化速率及碳汇计算[J].地球科学与环境学报,2017,39(03):439.
 PENG Yi-ni,CHEN Yang,LI Shi-lei.Rock Weathering Rates and Carbon Sink Calculation in Liaohe River Watershed, China[J].Journal of Earth Sciences and Environment,2017,39(03):439.
[3]庄思蝶,周晓成*,李鹏飞,等.新疆塔什库尔干断裂带温泉环境地球化学特征[J].地球科学与环境学报,2022,44(04):699.[doi:10.19814/j.jese.2021.11028]
 ZHUANG Si-die,ZHOU Xiao-cheng*,LI Peng-fei,et al.Environmental Hydrogeochemical Characteristics of Hot Springs in Tashkurgan Fault Zone of Xinjiang, China[J].Journal of Earth Sciences and Environment,2022,44(03):699.[doi:10.19814/j.jese.2021.11028]
[4]李 欢,张沁瑞*,闫广新,等.2005~2018年北京平原区土壤汞时空特征及其影响因素[J].地球科学与环境学报,2023,45(01):93.[doi:10.19814/j.jese.2022.10045]
 LI Huan,ZHANG Qin-rui*,YAN Guang-xin,et al.Tempo-spatial Characteristics of Soil Mercury in Beijing Plain, China from 2005 to 2018 and Their Influence Factors[J].Journal of Earth Sciences and Environment,2023,45(03):93.[doi:10.19814/j.jese.2022.10045]
[5]李冬丽,贺海波,张雪程,等.柴达木盆地东北部巴音河小流域水化学特征及来源[J].地球科学与环境学报,2023,45(03):749.[doi:10.19814/j.jese.2022.12047]
 LI Dong-li,HE Hai-bo,ZHANG Xue-cheng,et al.Hydrochemical Characteristics and Sources of Small Bayin River Watershed in the Northeast of Qaidam Basin, China[J].Journal of Earth Sciences and Environment,2023,45(03):749.[doi:10.19814/j.jese.2022.12047]
[6]苏 芳,古梦维,刘 航,等.农户土地利用效率的空间分异及影响因素——以陕南秦巴山区为例[J].地球科学与环境学报,2023,45(04):769.
 SU Fang,GU Meng-wei,LIU Hang,et al.Spatial Differentiation of Land Use Efficiency of Farmers and Its Influencing Factors—Taking Qinba Mountain Area of Southern Shaanxi, China as an Example[J].Journal of Earth Sciences and Environment,2023,45(03):769.
[7]郭玲霞,刘宇峰,封建民,等.中国省域新型城镇化与城乡融合发展的时空格局及其影响因素[J].地球科学与环境学报,2023,45(04):781.
 GUO Ling-xia,LIU Yu-feng,FENG Jian-min,et al.Spatial-temporal Pattern of Provincial New-type Urbanization and Integrated Urban-rural Development in China and Its Influence Factors[J].Journal of Earth Sciences and Environment,2023,45(03):781.
[8]刘珊珊,吴文婕*,王志强.基于DPSIR-TOPSIS模型的乌鲁木齐市绿色发展水平测度及其影响因素[J].地球科学与环境学报,2023,45(04):857.
 LIU Shan-shan,WU Wen-jie*,WANG Zhi-qiang.Calculation on Green Development Level of Urumqi in Xinjiang, China Based on DPSIR-TOPSIS Model and Its Influencing Factors[J].Journal of Earth Sciences and Environment,2023,45(03):857.
[9]刘鑫钰,王 弋*,贺 斌,等.基于水、碳足迹的绿洲小麦生产环境影响特征及其脱钩关系——以新疆叶尔羌河流域莎车灌区为例[J].地球科学与环境学报,2023,45(04):869.
 LIU Xin-yu,WANG Yi*,HE Bin,et al.Characteristics of Environmental Impact for Wheat Production and Their Decoupling Relationship in Oasis Irrigation Area Based on Water and Carbon Footprints—Taking Shache Irrigation District in Yarkant River Basin of Xinjiang, China as an Example[J].Journal of Earth Sciences and Environment,2023,45(03):869.
[10]周 航,赵先超*.县域尺度下湖南省碳排放空间分异特征与影响因素[J].地球科学与环境学报,2024,46(02):196.[doi:10.19814/j.jese.2023.12007]
 ZHOU Hang,ZHAO Xian-chao*.Spatial DifferentiationCharacteristicsof Carbon Emission and Its InfluencingFactors inHunan Province, China at theCounty Scale[J].Journal of Earth Sciences and Environment,2024,46(03):196.[doi:10.19814/j.jese.2023.12007]

备注/Memo

备注/Memo:
收稿日期:2024-02-09; 修回日期:2024-03-21
基金项目:国家自然科学基金项目(42341102,42102288); 陕西林业科技创新重点专项项目(SXLK2023-02-1); 中央高校基本科研业务费专项资金项目(300102263401)
*通信作者:钱 会(1963-),男,陕西咸阳人,教授,博士研究生导师,理学博士,E-mail:qianhui@chd.edu.cn。
更新日期/Last Update: 2024-05-30