| 林丽, 曾妍妍, 周金龙, 等. 新疆叶尔羌河流域浅层地下水化学特征及形成机制[J]. 干旱区资源与环境, 2020,34(6):146-152. LIN L, ZENG Y Y, ZHOU J L, et al. Hydrochemical characteristics and formation mechanism of shallow groundwater in the Yarkant River Basin, Xinjiang[J]. Journal of Arid Land Resources and Environment, 2020,34(6):146-152(in Chinese). |
| 吴丁丁, 姚震, 贾凤超, 等. 新疆哈密盆地地下水水化学特征及成因分析[J]. 干旱区资源与环境, 2020,34(7):133-141. WU D D, YAO Z, JIA F C, et al. Hydro-geochemical characteristics and genetic analysis of groundwater in Hami basin, Xinjiang[J]. Journal of Arid Land Resources and Environment, 2020,34(7):133-141(in Chinese). |
| 郝艳茹, 王鹏, 张明珠, 等. 广花盆地地下水化学特征及其演化分析[J]. 生态环境学报, 2020,29(2):337-344. HAO Y R, WANG P, ZHANG M Z, et al. Hydrochemical characteristic and its driving force of groundwater in the covered karst in Pearl River Basin[J]. Ecology and Environmental Sciences, 2020,29(2):337-344(in Chinese). |
| 曹晏风, 张明军, 瞿德业, 等. 祁连山东端地表及地下水水化学时空变化特征[J]. 中国环境科学, 2020,40(4):1667-1676. CAO Y F, ZHANG M J, QU D Y, et al. Temporal-spatial variation of surface and undergroundwater chemistry in the eastern part of Qilian Mountains[J]. China Environmental Science, 2020,40():1667-1676(in Chinese). |
| 孙厚云, 卫晓锋, 甘凤伟, 等. 滦河流域中上游富锶地下水成因类型与形成机制[J]. 地球学报, 2020,41(1):65-79. SUN H Y, WEI X F, GAN F W, et al. Genetic type and formation mechanism of strontium-rich groundwater in the upper and middle reaches of Luanhe River Basin[J]. Acta Geoscientica Sinica, 2020,41(1):65-79(in Chinese). |
| 张宏鑫, 吴亚, 罗炜宇, 等. 雷州半岛岭北地区地下水水文地球化学特征[J]. 环境科学, 2020, 41(11):4924-4935. ZHANG H X, WU Y, LUO W Y, et al. Hydrogeochemical Investigations of Groundwater in Lingbei Area, Leizhou Peninsula[J]. 2020, 41(11):4924-4935(in Chinese). |
| 赵江涛, 周金龙, 梁川, 等. 新疆焉耆盆地平原区地下水反向水文地球化学模拟[J]. 干旱区资源与环境, 2017,31(10):65-70. ZHAO J T, ZHOU J L, LIANG C, et al. Reverse hydrogeochemical simulation of groundwater in the plain area of Yanqi Basin, Xinjiang[J]. Journal of Arid Land Resources and Environment, 2017,31(10):65-70(in Chinese). |
| 周承刚, 白喜庆. 宁夏南部地区苦咸水化地下水的形成机理浅析[J]. 地球学报, 2002,23(增刊):29-31. ZHOU C G, BAI Q X. Analysis on the formation mechanism of brackish hydrated groundwater in southern Ningxia[J].Acta Geoscientica Sinica, 2002 ,23(Suppl):29-31(in Chinese). |
| 解建仓, 张建龙, 朱记伟, 等. 马莲河苦咸水来源分析及治理方案[J]. 资源科学, 2011,33(1):77-85. XIE J C, ZHANG J L, ZHU J W, et al. Analysis of brackish water sources and treatment plan in the Malian River[J]. Resources Science, 2011,33(1):77-85(in Chinese). |
| 王菁, 孟祥周, 陈玲, 等. 苦咸水成因及其淡化技术研究进展[J]. 甘肃农业科技, 2010(7):39-42. WANG J, MENG X Z, CHEN L, et al. Research progress on the cause of brackish water and its desalination technology[J].Gansu Agricultural Science and Technology, 2010 (7):39-42(in Chinese). |
| 曲炜, 司建宁. 宁夏非常规水源开发利用现状浅析[J]. 中国水利, 2010(19):30-31. QU W, SI J N. Analysis on the unconventional water sources development and utilization in Ningxia[J]. China Water Resources, 2010 (19):30-31(in Chinese). |
| 张一平. 对阿拉尔市打造南疆兵团中心城市的几点思考[J]. 兵团党校学报, 2019(3):37-41. ZHANG Y P. Thoughts on building the central city of the southern Xinjiang Corps by Alar City of the First Division[J]. Journal of the Party School of XPCC of CPC, 2019 (3):37-41(in Chinese). |
| 赵凯, 罗东海, 郭超, 等. 新疆阿拉尔地区土壤盐渍化特征[J]. 中国煤炭地质, 2018,30(10):46-49. ZHAO K, LUO D H, GUO C, et al. Soil salinization features in Aral Area,Xinjiang[J]. Coal Geology of China, 2018,30(10):46-49(in Chinese). |
| 俄有浩, 严平, 李文赞, 等. 中国内陆干旱、半干旱区苦咸水分布特征[J]. 中国沙漠, 2014,34(2):565-573. E Y H, YAN P, LI W Z, et al. Characteristics and distribution of brackish water in arid and semi-arid interior of China[J]. Journal of Desert Research, 2014,34(2):565-573(in Chinese). |
| 王双合, 胡兴林, 蓝永超, 等. 甘肃省苦咸水资源量及时空分布规律研究[J]. 中国沙漠, 2009,29(5):995-1002. WANG S H, HU X L, LAN Y C, et al. Bitter-salty water resources amount and its distribution in Gansu Province[J]. Journal of Desert Research, 2009,29(5):995-1002(in Chinese). |
| 张小岳. 黄骅市苦咸水资源评价及其利用初步研究[D]. 保定:河北农业大学, 2012. ZHANG X Y. Preliminary study on bitter salty water resources evaluation and use of Huanghua[D]. Baoding:Agricultural University of Hebei Province, 2012(in Chinese). |
| 地下水质量标准GB╱T14848-2017[S]. Standard for groundwater quality GB╱T14848-2017[S](in Chinese). |
| 张岩, 董维红, 李满洲, 等. 河南平原浅层地下水总溶解固体和水化学类型的分布特征[J]. 水文, 2011,31(2):79-83. ZHANG Y, DONG W H, LI M Z, et al. Study on distribution characteristics of TDS and hydrochemical type of shallow groundwater in Henan Plain[J]. Journal of China Hydrology, 2011,31(2):79-83(in Chinese). |
| 朱海勇, 陈永金, 刘加珍, 等. 塔里木河中下游地下水化学及其演变特征分析[J]. 干旱区地理, 2013,36(1):8-18. ZHU H Y, CHEN Y J, LIU J Z, et al. Variation and evolution of groundwater chemistry in the middle and lower reaches of the Tarim River[J]. Arid Land Geography,2013,36(1):8-18(in Chinese). |
| ANDRES M, PAUL S. Groundwater chemistry and the Gibbs Diagram[J]. Applied Geochemistry, 2018,97:209-212. |
| KUMAR T A, MARINA D M, KUMAR S P, et al. Hydrogeochemical characterization and groundwater quality assessment in a coal mining area, India[J]. Arabian Journal of Geosciences, 2016,9(3):177. |
| 孙英, 周金龙, 魏兴, 等. 巴楚县平原区地下水水化学特征及成因分析[J]. 环境化学, 2019,38(11):2601-2609. SUN Y, ZHOU J L, WEI X, et al. Hydrochemical characteristics and cause analysis of groundwater in the plain area of Bachu County[J]. Environmental Chemistry, 2019,38(11):2601-2609(in Chinese). |
| QIAN S Y, CHEN C J, ZHANG X D, et al. Groundwater hydrochemical characteristics analysis and water quality evaluation in the Jiaozuo Area[J]. IOP conference series:Materials Science and Engineering, 2020,794:12056. |
| SEMHI K, ABDALLA O, ABRI R A, et al. Strontium isotopes as a tool for estimation of groundwater recharge and aquifer connectivity[J]. Groundwater for Sustainable Development, 2017(4):1-11. |
| NEGRE P, PAUWELE H, CHABAUX F O. Characterizing multiple water-rock interactions in the critical zone through Sr-isotope tracing of surface and groundwater[J]. Applied Geochemistry, 2018,93:102-112. |
| 章光新, 邓伟, 何岩, 等. 中国东北松嫩平原地下水水化学特征与演变规律[J]. 水科学进展, 2006(1):20-28. ZHANG G X, DENG W, HE Y, et al. Hydrochemical characteristics and evolution laws of groundwater in Songnen Plain, Northeast China[J]. Advances in Water Science, 2006 (1):20-28(in Chinese). |