喀什地区西部地下水重金属空间分布特征及成因分析
Spatial distribution and orign of heavy metals in groundwater in the western Kashgar Prefecture
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摘要: 本文基于新疆喀什地区西部平原区地下水污染调查数据,重点分析了地下水超标重金属(Mn、Fe、As、Pb和Cd)的空间分布特征与成因.喀什地区西部地下水Mn、Fe超标区呈连续分布,具有普遍性;As超标区呈岛状分布,范围较小;Pb和Cd超标呈点状分布,分别与Fe和As超标高值区相伴.流域上游地下水未超标区大于下游.结果表明,Mn、Fe、As超标高值区是在原生地质环境背景下,工业污染因素增强、区域地下水开采等因素共同作用形成的.相关分析表明,Mn和Fe、Mn和Pb、Fe和Pb、As和Cd质量浓度间呈显著的正相关关系,说明流域人为污染因素在加强.本文针对喀什地区西部地下水超标重金属之间相关性,结合其空间分布特点及成因,提出了防治地下水污染的建议.Abstract: Based on groundwater pollution survey data, spatial distribution and origin of over the standard heavy metals (Mn, Fe, As, Pb and Cd) in the groundwater in the plain area of western Kashgar Prefecture, Xinjiang were analyzed. The distribution of Mn and Fe in the polluted area was continuous and common, while the distribution of As was patchy and narrow. As for Pb and Cd, they showed spotty distribution which was in accordance with Fe and As.The groundwater in the upper basin was not over standurd and the area was large than the downstream. The results indicated that high levels of Mn, Fe and As resulted from increased industrial pollution and regional groundwater exploitation in addition to protogenic geologic environmental background. Correlation analysis suggested that the concentrations of Mn and Fe, Mn and Pb, Fe and Pb, As and Cd were significantly positively correlated, which indicated an increasing influence of anthropogenic pollution. Suggestions on countermeasures of groundwater pollution were put forward with based on their distribution and origin as well as the relationships between over the standard heavy metals in the west of Kashgar region.
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[1] 艾则提玉买尔·艾买提,吕怡兵.喀什地区突发性环境污染事故隐患及其应对的几点看法[J].轻工科技,2012(6):92-93. AI· ;A, LV Y B. The hidden danger of sudden environmental pollution accident in Kashgar area and Several points of view[J].Light Industry Science and Technology, 2012(6):92-93(in Chinese).
[2] 洪涛,谢运球,喻崎雯,等.乌蒙山重点地区地下水水化学特征及成因分析[J].地球与环境,2016,44(1):11-18. HONG T, XIE Y Q, YU Q W, et al. Hydrochemical characteristics study and genetic analysis of groundwater in a key region of the Wumeng Mountain, Southwestern China[J].Earth and Environment, 2016,44(1):11-18(in Chinese).
[3] 储金宇,张金萍,周晓红,等.镇江市古运河河岸沉积物重金属分布特征及潜在生态风险评价[J].环境化学,2015,34(4):763-771. CU J Y, ZHANG J P, ZHOU X H, et al. Distribution characteristics and ecological risk evaluation of heavy metals in riverside sediments of Zhenjiang Canal[J].Environmental Chemistry, 2015,34(4):763-771(in Chinese).
[4] 赵江涛,周金龙,曾妍妍,等.新疆焉耆盆地平原区地下水质量评价与污染成因探讨[J].地球与环境,2015,43(6):628-635. ZHAO J T, ZHOU J L, ZENG Y Y, et al. Assessment of groundwater quality and pollution causes discussion for the plain area of Yanqi Basin, Xinjiang Autonomous Region, China[J]. Earth and Environment, 2015,43(6):628-635(in Chinese).
[5] MOHAMAD S, ROUHOLLAH M. Health risk assessment of Fe, Mn, Cu, Cr in drinking water in some wells and springs of Shush and Andimeshk, Khuzestan Province, Southern Iran[J].Iranian Journal of Toxicology,2016,10(2):29-35. [6] 朱宏,周宏飞,陈小兵,等.新疆喀什地区的地下水资源特征分析[J].干旱区研究,2005,22(2):152-156. ZHU H, ZHOU H F, CHEN X B, et al. Analysis on the characteristics of groundwater resources in Kashgar Prefecture, Xinjiang[J].Arid Zone Research, 2005,22(2):152-156(in Chinese).
[7] 陈小兵,周宏飞,张学仁,等.新疆喀什噶尔冲积平原区地下水水化学特征[J].干旱区地理,2004,27(1):75-79. CHEN X B, ZHOU H F, ZHANG X R, et al. Chemical characteristics of groundwater in Kashgar Alluvial plain, Xinjiang[J].Arid Land Geography, 2004,27(1):75-79(in Chinese).
[8] 栾凤娇,周金龙,曾妍妍,等.新疆南部典型地区地下水中氟的分布特征及其富集因素分析[J].环境化学,2016,35(6):1203-1211. LUAN F J, ZHOU J L, ZENG Y Y, et al. Distribution characteristics and enrichment factors of fluorine in groundwater in typical areas of southern Xinjiang[J]. Environmental Chemistry, 2016, 35(6):1203-1211(in Chinese).
[9] 纪媛媛,李巧,周金龙.新疆喀什地区地下水质量与污染评价[J].节水灌溉,2014,(1):50-55. JI Y Y, LI Q, ZHOU J L. Assessment of groundwater quality and pollution in Kashgar Region of Xinjiang[J].Water Saving Irrigation, 2014 ,(1):50-55(in Chinese).
[10] 曾妍妍,周殷竹,周金龙,等.新疆南部典型地区地下水重金属空间分布特征[J].环境化学,2015,34(12):2310-2312. ZENG Y Y, ZHOU Y Z, ZHOU J L, et al. Spatial distribution characteristics of heavy metals in groundwater in typical areas of southern Xinjiang[J]. Environmental Chemistry, 2015, 34(12):2310-2312(in Chinese).
[11] 隗经斌,李云华,古丽巴哈,等.新疆喀什噶尔河流域水资源质量保护及对策[J].冰川冻土,2004,26(5):645-649. WEI J B, LI Y H, GULI B H, et al. Protection and countermeasure of the water resources quality in the Kashgar River Basin, Xinjiang[J].Journal of Glaciology and Geocryology,2004,26(5):645-649(in Chinese).
[12] 王焰新.地下水污染与防治[M].北京:高等教育出版社,2007. WANG Y X. Groundwater Gontamination[M]. Beijing:Higher Education Press, 2007(in Chinese). [13] CHEN M, QIN X S, ZENG G M, et al. Impacts of human activity modes and climate on heavy metal "spread" in groundwater are biased[J]. Chemosphere,2016,152:439-445. [14] LI P Y, WU J H,QIAN H, et al. Origin and assessment of groundwater pollution and associated health risk:A case study in an industrial park, northwest China[J]. Environmental Geochemistry and Health,2014,36(4):693-712. [15] 新疆维吾尔自治区国土资源厅.新疆维吾尔自治区矿产开发简明图集[R].新疆:新疆维吾尔自治区国土资源厅,2014. Resources department in Xinjiang Uighur Autonomous Region. Concise atlas of mineral development in Xinjiang Uighur[R].Xinjiang:Resources Department in Xinjiang Uighur Autonomous Region,2014(in Chinese). [16] 中国地质科学院水文地质工程地质研究所.中国地下水诱发危害图[1:6000000] 中国环境地质图系[M].北京,中国地图出版社,1992. Chinese Academy of Geological Sciences Hydrogeology and Engineering Geology Research Institute. Groundwater induced hazard map in China[1:6000000] China Environmental Geological Map[M].Beijing, China Cartographic Publishing House,1992 (in Chinese).
[17] ZENG Z H. The formation of As elements in groundwater and the controlling factor[J].Acta Geologica Sinica,1996,70(3):262-269. [18] 雷万荣,唐春梅,江凌云.浅谈地下水中铁、锰质的迁移与富集规律[J].江西科学,2006,24(1):80-82. LEI W R, TANG C M, JAING L Y. Discussion on iron and manganese transport and concentrate in groundwater[J].Jiangxi Science, 2006,24(1):80-82(in Chinese).
[19] 牛凤奇,纪锐琳,朱义年,等.地下水砷污染的研究进展[J].广西轻工业,2007(4):85-87. NIU F Q, JI R L, ZHU Y N, et al. Research progress of arsenic pollution in groundwater[J].Guangxi Journal of Light Industry, 2007 (4):85-87(in Chinese).
[20] 曾贤薇,李晓,龙章亮.北票渗滤取水工程区地下水铁锰离子分布规律及成因分析[J].地下水,2008,30(3):10-11. ZENG X W, LI X, LONG Z L. Analysis on distribution regulation and formation causes of Fe and Mn in the groundwater in the project area of BeiPiao water percolation[J].Groundwater,2008,30(3):10-11(in Chinese).
[21] 朱锦旗,王彩会,陆徐荣,等.苏锡常地区浅层地下水铁锰离子分布规律及成因分析[J].水文地质工程地质,2006,33(3):30-33. ZHU J Q, WANG C H, LU X R, et al. An analysis of the occurrence and influence factors of Fe2+ and Mn2+ in the shallow groundwater in the Suzhou-Wuxi-Changzhou area[J]. Hydrogeology & Engineering Geology, 2006,33(3):30-33(in Chinese).
[22] 丁爱中,杨双喜,张宏达,等.地下水砷污染分析[J].吉林大学学报,2007,37(2):319-325. DING A Z, YANG S X, ZHANG H D, et al. Analysis on arsenic contamination in groundwater[J]. Journal of Jilin University(Earth Science Edition), 2007, 37(2):319-325(in Chinese).
[23] GONG X,CHEN Z H,LUO Z H. Spatial distribution, temporal variation, and sources of heavy metal pollution in groundwater of a century-old nonferrous metal mining and smelting area in China[J]. Environ Monit Assess,2014,186(12):9101-9116. [24] LI W, WANG M Y, LIU L Y, et al. Groundwater heavy metal levels and associated human health risk in the North China Plain[J]. Arabian Journal of Geosciences,2015,8(12):10389-10398. [25] 周金龙,刘丰,李国敏,等.基于DRAV模型的塔里木盆地地下水脆弱性评价[J].人民黄河,2009,31(12):53-55. ZHOU J L, LIU F, LI G M, et al. Groundwater vulnerability assessment in Tarim Basin based on DRAV model[J].Yellow River, 2009,31(12):53-55(in Chinese).
[26] 孟宪萌,杨邦,白亮.越流区开采条件下承压水含水层易污染性机理研究——以单井开采为例[J].水文地质与工程地质,2013,40(4):25-35. MENG X M, YANG B, BAI L. Research on the mechanism of the confined aquifer vulnerability leakage area under exploitation conditions, exemplified by a single pumping well[J].Hydrogeology & Engineering Geology,2013,40(4):25-35(in Chinese).
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