[1] |
LUKAČ REBERSKI J, RUBINIĆ J, TERZIĆ J, et al. Climate change impacts on groundwater resources in the coastal karstic adriatic area: A case study from the dinaric Karst [J]. Natural Resources Research, 2020, 29(3): 1975-1988. doi: 10.1007/s11053-019-09558-6
|
[2] |
XING L N, GUO H M, ZHAN Y H. Groundwater hydrochemical characteristics and processes along flow paths in the North China Plain [J]. Journal of Asian Earth Sciences, 2013, 70/71: 250-264. doi: 10.1016/j.jseaes.2013.03.017
|
[3] |
SUNKARI E D, ABU M, BAYOWOBIE P S, et al. Hydrogeochemical appraisal of groundwater quality in the Ga west municipality, Ghana: Implication for domestic and irrigation purposes [J]. Groundwater for Sustainable Development, 2019, 8: 501-511. doi: 10.1016/j.gsd.2019.02.002
|
[4] |
王珺瑜, 王家乐, 靳孟贵. 济南泉域岩溶水水化学特征及其成因 [J]. 地球科学, 2017, 42(5): 821-831.
WANG J Y, WANG J L, JIN M G. Hydrochemical characteristics and formation causes of Karst water in Jinan spring catchment [J]. Earth Science, 2017, 42(5): 821-831(in Chinese).
|
[5] |
LOVE D, HALLBAUER D, AMOS A, et al. Factor analysis as a tool in groundwater quality management: Two southern African case studies [J]. Physics and Chemistry of the Earth, Parts A/B/C, 2004, 29(15/16/17/18): 1135-1143.
|
[6] |
RAYNE T W, BRADBURY K R, KRAUSE J J. Impacts of a rural subdivision on groundwater quality: Results of long-term monitoring [J]. Ground Water, 2019, 57(2): 279-291. doi: 10.1111/gwat.12666
|
[7] |
袁建飞, 邓国仕, 徐芬, 等. 毕节市北部岩溶地下水水化学特征及影响因素的多元统计分析 [J]. 中国地质, 2016, 43(4): 1446-1456.
YUAN J F, DENG G S, XU F, et al. The multivariate statistical analysis of chemical characteristics and influencing factors of Karst groundwater in the northern part of Bijie City, Guizhou Province [J]. Geology in China, 2016, 43(4): 1446-1456(in Chinese).
|
[8] |
XIAO Q, JIANG Y J, SHEN L C, et al. Origin of calcium sulfate-type water in the Triassic carbonate thermal water system in Chongqing, China: A chemical and isotopic reconnaissance [J]. Applied Geochemistry, 2018, 89: 49-58. doi: 10.1016/j.apgeochem.2017.11.011
|
[9] |
BUSICO G, CUOCO E, KAZAKIS N, et al. Multivariate statistical analysis to characterize/discriminate between anthropogenic and geogenic trace elements occurrence in the Campania Plain, Southern Italy [J]. Environmental Pollution, 2018, 234: 260-269. doi: 10.1016/j.envpol.2017.11.053
|
[10] |
van GELDERN R, SCHULTE P, MADER M, et al. Insights into agricultural influences and weathering processes from major ion patterns [J]. Hydrological Processes, 2018, 32(7): 891-903. doi: 10.1002/hyp.11461
|
[11] |
张虹, 张代钧, 卢培利. 重庆市页岩气开采的浅层地下水污染风险评价 [J]. 环境工程学报, 2017, 11(4): 2016-2024. doi: 10.12030/j.cjee.201510208
ZHANG H, ZHANG D J, LU P L. Primary assessment of shallow ground water pollution risk for shale gas exploitation in Chongqing [J]. Chinese Journal of Environmental Engineering, 2017, 11(4): 2016-2024(in Chinese). doi: 10.12030/j.cjee.201510208
|
[12] |
张虹, 魏兴萍, 彭名涛. 重庆市浅层地下水污染源解析与环境影响因素识别 [J]. 环境科学研究, 2021, 34(12): 2896-2906. doi: 10.13198/j.issn.1001-6929.2021.08.10
ZHANG H, WEI X P, PENG M T. Analysis of pollution sources and identification of environmental influencing factors of shallow groundwater in Chongqing, China [J]. Research of Environmental Sciences, 2021, 34(12): 2896-2906(in Chinese). doi: 10.13198/j.issn.1001-6929.2021.08.10
|
[13] |
姜体胜, 曲辞晓, 王明玉, 等. 北京平谷平原区浅层地下水化学特征及成因分析 [J]. 干旱区资源与环境, 2017, 31(11): 122-127.
JIANG T S, QU C X, WANG M Y, et al. Hydrochemical characteristics of shallow groundwater and the origin in the Pinggu Plain, Beijing [J]. Journal of Arid Land Resources and Environment, 2017, 31(11): 122-127(in Chinese).
|
[14] |
冯建国, 赫明浩, 李贵恒, 等. 泰莱盆地孔隙水水化学特征及其控制因素分析 [J]. 环境化学, 2019, 38(11): 2594-2600.
FENG J G, HE M H, LI G H, et al. Analysis of hydrochemical characteristics and controlling factors of porewater in the Tailai Basin [J]. Environmental Chemistry, 2019, 38(11): 2594-2600(in Chinese).
|
[15] |
陈晨, 高宗军, 李伟, 等. 泰莱盆地地下水化学特征及其控制因素 [J]. 环境化学, 2019, 38(6): 1339-1347. doi: 10.7524/j.issn.0254-6108.2018090504
CHEN C, GAO Z J, LI W, et al. Characteristics and possible factors of hydrochemistry in the groundwater in Tailai Basin [J]. Environmental Chemistry, 2019, 38(6): 1339-1347(in Chinese). doi: 10.7524/j.issn.0254-6108.2018090504
|
[16] |
刘鑫, 向伟, 马小军, 等. 黄土高原中部浅层地下水化学特征及影响因素 [J]. 中国环境科学, 2021, 41(11): 5201-5209. doi: 10.3969/j.issn.1000-6923.2021.11.028
LIU X, XIANG W, MA X J, et al. Hydrochemical characteristics and controlling factors of shallow groundwater in the Chinese Loess Plateau [J]. China Environmental Science, 2021, 41(11): 5201-5209(in Chinese). doi: 10.3969/j.issn.1000-6923.2021.11.028
|
[17] |
林聪业, 孙占学, 高柏, 等. 拉萨地区地下水水化学特征及形成机制研究 [J]. 地学前缘, 2021, 28(5): 49-58. doi: 10.13745/j.esf.sf.2021.2.2
LIN C Y, SUN Z X, GAO B, et al. Hydrochemical characteristics and formation mechanism of groundwater in Lhasa area, China [J]. Earth Science Frontiers, 2021, 28(5): 49-58(in Chinese). doi: 10.13745/j.esf.sf.2021.2.2
|
[18] |
LEHN G O, JACOBSON A D, DOUGLAS T A, et al. Constraining seasonal active layer dynamics and chemical weathering reactions occurring in North Slope Alaskan watersheds with major ion and isotope (δ34SSO4, δ13CDIC, 87Sr/86Sr, δ44/40Ca, and δ44/42Ca) measurements [J]. Geochimica et Cosmochimica Acta, 2017, 217: 399-420. doi: 10.1016/j.gca.2017.07.042
|
[19] |
魏世博, 王哲, 李飞, 等. 内蒙古额济纳平原地下水氢氧同位素和水化学特征及其演化规律[J/OL]. 中国地质: 1-14.
WEI S B, WANG Z, LI F, et al. Characteristics of hydrogen and oxygen isotope and hydrochemistry in the Ejina plain groundwater and its hydrochemical evolution[J/OL]. Geology in China: 1-14(in Chinese).
|
[20] |
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 X L, YANG Y H, CAO B, 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(in Chinese).
|
[21] |
钱程, 武雄. 盐池内流区地下水水化学特征及其形成作用 [J]. 干旱区资源与环境, 2016, 30(3): 169-175.
QIAN C, WU X. Hydrochemical characteristics and formation mechanism of groundwater in the inner flow area in Yanchi [J]. Journal of Arid Land Resources and Environment, 2016, 30(3): 169-175(in Chinese).
|
[22] |
曾小仙, 曾妍妍, 周金龙, 等. 石河子市浅层地下水化学特征及其成因分析 [J]. 干旱区研究, 2021, 38(1): 68-75. doi: 10.13866/j.azr.2021.01.08
ZENG X X, ZENG Y Y, ZHOU J L, et al. Hydrochemical characteristics and cause analysis of the shallow groundwater in Shihezi City [J]. Arid Zone Research, 2021, 38(1): 68-75(in Chinese). doi: 10.13866/j.azr.2021.01.08
|
[23] |
孟舒然, 吕敦玉, 王翠玲, 等. 郑州市中牟县地下水水化学特征及控制因素 [J]. 环境化学, 2022, 41(3): 977-986. doi: 10.7524/j.issn.0254-6108.2021010802
MENG S R, LV D Y, WANG C L, et al. Research of groundwater chemical characteristics and controlling factors in Zhongmu County, Zhengzhou City [J]. Environmental Chemistry, 2022, 41(3): 977-986(in Chinese). doi: 10.7524/j.issn.0254-6108.2021010802
|
[24] |
房丽晶, 高瑞忠, 贾德彬, 等. 草原流域地下水化学时空特征及环境驱动因素: 以内蒙古巴拉格尔河流域为例 [J]. 中国环境科学, 2021, 41(5): 2161-2169. doi: 10.3969/j.issn.1000-6923.2021.05.020
FANG L J, GAO R Z, JIA D B, et al. Spatial-temporal characteristics of groundwater quality and its environmental driving factors of Steppe Basin—taken Balaguer River Basin of Inner Mongolia for instance [J]. China Environmental Science, 2021, 41(5): 2161-2169(in Chinese). doi: 10.3969/j.issn.1000-6923.2021.05.020
|
[25] |
GIBBS R J. Mechanisms controlling world water chemistry [J]. Science, 1970, 170(3962): 1088-1090. doi: 10.1126/science.170.3962.1088
|
[26] |
MARANDI A, SHAND P. Groundwater chemistry and the Gibbs diagram [J]. Applied Geochemistry, 2018, 97: 209-212. doi: 10.1016/j.apgeochem.2018.07.009
|
[27] |
魏兴, 周金龙, 乃尉华, 等. 新疆喀什三角洲地下水化学特征及演化规律 [J]. 环境科学, 2019, 40(9): 4042-4051. doi: 10.13227/j.hjkx.201901211
WEI X, ZHOU J L, NAI W H, et al. Hydrochemical characteristics and evolution of groundwater in the Kashgar delta area in Xinjiang [J]. Environmental Science, 2019, 40(9): 4042-4051(in Chinese). doi: 10.13227/j.hjkx.201901211
|
[28] |
寇永朝, 华琨, 李洲, 等. 泾河支流地表水地下水的水化学特征及其控制因素 [J]. 环境科学, 2018, 39(7): 3142-3149.
KOU Y C, HUA K, LI Z, et al. Major ionic features and their possible controls in the surface water and groundwater of the Jinghe River [J]. Environmental Science, 2018, 39(7): 3142-3149(in Chinese).
|
[29] |
成思, 温瑶, 许畅畅, 等. 崇明岛浅层地下水化学特征及其影响机制 [J]. 环境科学研究, 2021, 34(5): 1120-1128. doi: 10.13198/j.issn.1001-6929.2020.09.13
CHENG S, WEN Y, XU C C, et al. Hydrochemical characteristics and impact mechanism of shallow groundwater in Chongming Island, China [J]. Research of Environmental Sciences, 2021, 34(5): 1120-1128(in Chinese). doi: 10.13198/j.issn.1001-6929.2020.09.13
|
[30] |
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.
|
[31] |
XIAO J, JIN Z D, WANG J, et al. Hydrochemical characteristics, controlling factors and solute sources of groundwater within the Tarim River Basin in the extreme arid region, NW Tibetan Plateau [J]. Quaternary International, 2015, 380/381: 237-246. doi: 10.1016/j.quaint.2015.01.021
|
[32] |
SINGH N, SINGH R P, KAMAL V, et al. Assessment of hydrogeochemistry and the quality of groundwater in 24-Parganas districts, West Bengal [J]. Environmental Earth Sciences, 2015, 73(1): 375-386. doi: 10.1007/s12665-014-3431-2
|
[33] |
NEMATOLLAHI M J, CLARK M J R, EBRAHIMI P, et al. Preliminary assessment of groundwater hydrogeochemistry within Gilan, a northern Province of Iran [J]. Environmental Monitoring and Assessment, 2018, 190(4): 242. doi: 10.1007/s10661-018-6543-4
|
[34] |
何锦, 张幼宽, 赵雨晴, 等. 鲜水河断裂带虾拉沱盆地断面地下水化学特征及控制因素 [J]. 环境科学, 2019, 40(3): 1236-1244. doi: 10.13227/j.hjkx.201808117
HE J, ZHANG Y K, ZHAO Y Q, et al. Hydrochemical characteristics and possible controls of groundwater in the xialatuo basin section of the Xianshui River [J]. Environmental Science, 2019, 40(3): 1236-1244(in Chinese). doi: 10.13227/j.hjkx.201808117
|
[35] |
张涛, 何锦, 李敬杰, 等. 蛤蟆通河流域地下水化学特征及控制因素 [J]. 环境科学, 2018, 39(11): 4981-4990. doi: 10.13227/j.hjkx.201804070
ZHANG T, HE J, LI J J, et al. Major ionic features and possible controls in the groundwater in the hamatong river basin [J]. Environmental Science, 2018, 39(11): 4981-4990(in Chinese). doi: 10.13227/j.hjkx.201804070
|
[36] |
MOSTAZA-COLADO D, CARREÑO-CONDE F, RASINES-LADERO R, et al. Hydrogeochemical characterization of a shallow alluvial aquifer: 1 baseline for groundwater quality assessment and resource management [J]. Science of the Total Environment, 2018, 639: 1110-1125. doi: 10.1016/j.scitotenv.2018.05.236
|
[37] |
PAZAND K, KHOSRAVI D, GHADERI M R, et al. Identification of the hydrogeochemical processes and assessment of groundwater in a semi-arid region using major ion chemistry: A case study of Ardestan Basin in Central Iran [J]. Groundwater for Sustainable Development, 2018, 6: 245-254. doi: 10.1016/j.gsd.2018.01.008
|
[38] |
BARZEGAR R, ASGHARI MOGHADDAM A, NAZEMI A H, et al. Evidence for the occurrence of hydrogeochemical processes in the groundwater of Khoy plain, northwestern Iran, using ionic ratios and geochemical modeling [J]. Environmental Earth Sciences, 2018, 77(16): 597. doi: 10.1007/s12665-018-7782-y
|