[1]刘前进,黄旭娟,何文城.赣南青塘盆地岩溶水特征及开发利用区划[J].华东地质,2022,43(03):364-373.[doi:10.16788/j.hddz.32-1865/P.2022.03.012]
 LIU Qianjin,HUANG Xujuan,HE Wencheng.Characteristics and exploitation divisions of karst water in Qingtang Basin, Southern Jiangxi[J].East China Geology,2022,43(03):364-373.[doi:10.16788/j.hddz.32-1865/P.2022.03.012]
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赣南青塘盆地岩溶水特征及开发利用区划()
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《华东地质》[ISSN:2096-1871/CN:32-1865/P]

卷:
43
期数:
2022年03期
页码:
364-373
栏目:
环境地质
出版日期:
2022-09-24

文章信息/Info

Title:
Characteristics and exploitation divisions of karst water in Qingtang Basin, Southern Jiangxi
作者:
刘前进 黄旭娟 何文城
江西省地质调查研究院, 江西 南昌 330030
Author(s):
LIU Qianjin HUANG Xujuan HE Wencheng
Geology Survey Institute of Jiangxi Province, Nanchang 330030, Jiangxi, China
关键词:
岩溶水地下水开发利用青塘盆地赣南
Keywords:
karst watergroundwaterdevelopment and utilizationQingtang BasinSouthern Jiangxi Province
分类号:
P641.134
DOI:
10.16788/j.hddz.32-1865/P.2022.03.012
摘要:
通过地面调查、地球物理勘探、水文地质钻探及采样测试等手段,研究赣南青塘盆地岩溶水特征。研究表明,盆地内岩溶水主要赋存于岩溶地下河及岩溶管道-裂隙含水层中,水资源较为丰富,局部以地下河及岩溶上升泉形式溢出地表,地下水开发以地下河及岩溶上升泉为主。综合分析认为:青塘岩溶盆地内岩溶分布在侵蚀基准面以上,沿层面发育并受断裂及构造裂隙控制;水化学类型以HCO3-Ca型、HCO3·SO4-Ca型为主,分别占总水样的58.33%、20.83%;地下水水质以较好(Ⅲ类)为主,占盆地内总水样的50.00%;青塘岩溶盆地外来地表水汇入流量为117 094.5 m3/d,汇出流量为416 007.8 m3/d,内部基础径流量为298 913.3 m3/d。在综合分析盆地内岩溶地下水和地表水富集程度、地下水开发条件和环境承载力等因素基础上,结合地貌和流域特点、盆地内岩溶塌陷易发性分区,对区内岩溶地下水资源开发利用进行了区划,为该区合理利用岩溶水资源提供依据。
Abstract:
This paper studied the characteristics of karst water in Qingtang Basin, southern Jiangxi Province by ground survey, geophysical prospecting, hydrogeological drilling, sampling test, etc. The results showed that the groundwater in the basin is mainly hosted in karst subterranean rivers and karst pipeline-fractured aquifer. The water resources are relatively abundant and overflow surface in form of subterranean rivers and karst-ascending spring at local areas, which are the focus of groundwater exploitation in the area. By comprehensive analysis, this paper considered that the Karst developed along layer surface above erosion base level in the Qingtang Karst Basin and are controlled by fracture and structural fissure; the primary hydrochemistry type were HCO3-Ca and HCO3·SO4-Ca, with the proportion 58.33% and 20.83% respectively; the groundwater quality primary was preferable (class Ⅲ), accounting for 50.00% of total water sample in the Basin; the import flow was 117 094.5 m3/d, while the discharge flow was 416 007.8 m3/d of external surface water, basic runoff was 298 913.3 m3/d in the Qingtang Karst Basin. Based on the enrichment degree of karst groundwater and surface water in the basin, development conditions of groundwater and environmental load capacity, etc, combined features of landform and watershed, prone partition of karst collapse in the basin, this paper proposed development and utilization zoning of the karst groundwater resources, which can provide basis for rational utilization of the karst water resources in the area.

参考文献/References:

[1] 陈梦熊,马凤山.中国地下水资源与环境[M].北京:地震出版社,2002:413-418. CHEN M X, MA F S. Groundwater resources and the environment in China[M]. Beijing:Seismological Press,2002:413-418.
[2] 韩行瑞.岩溶水文地质学[M].北京:科学出版社,2015:1-311. HAN X R. Karst hydrogeology[M].Beijing:Science Press,2015:1-311.
[3] 王中美.贵州碳酸盐岩的分布特征及其对岩溶地下水的控制[J].地质与勘探,2017,53(2):342-349. WANG Z M. Characteristics of the distribution of carbonate rocks and their control on Karst groundwater in Guizhou[J].Geology and Exploration,2017,53(2):342-349.
[4] 郑智杰.高密度电法在柳州太阳村镇岩溶塌陷区调查中的应用研究[J].地质与勘探,2017,53(1):124-132. ZHENG Z J. Application of high-density electrical resistivity imaging to Karst collapse investigation at the Taiyangcun town, Liuzhou[J].Geology and Exoloration,2017,53(1):124-132.
[5] 吴攀,鄢贵权.贵州岩溶地区地下水成库与开发利用[J].贵州科学,2006,24(1):25-27. WU P, YAN G Q. Exploitation and utilization and forming conditions of underground reservoirs in Karst area of Guizhou Province[J].Gui Zhou Science,2006,24(1):25-27.
[6] 潘晓东,梁杏,唐建生,等.黔东北高原斜坡地区4种岩溶地下水系统模式及特点[J].地球学报,2015,36(1):85-93. PAN X D,LIANG X,TANG J S, et al. The Patterns and Characteristics of Four Karst Groundwater Systems in Northeast Guizhou Slope Zone Based on the Landscape and Reservoir Structure[J].Acta Geoscientica Sinica,2015,36(1):85-93.
[7] 覃小群,蒋忠诚.表层岩溶带及其水循环的研究进展与发展方向[J].中国岩溶,2005,24(3):250-254. QIN X Q, JIANG Z C. A review on recent advances and perspective in epikarst water study[J]. Carsologica Sinica,2005,24(3):250-254.
[8] 中国地质调查局南京地质调查中心.长江经济带地质环境综合调查工程简介[J].华东地质,2016,37(1):76-78. Nanjing Center, China Geological Surrey.A brief introduction to the comprehensive geological environment survey project in the Yangtze River Economic Belt[J].East China Geology,2016,37(1):76-78.
[9] 方起东.应用航片研究江西宁都青圹盆地覆盖型岩溶[J].中国岩溶,1988,7(1):57-62. FANG Q D. Application of airphotos to the study of buried-type Karst in Qingtang Basin at Ningdu, Jiangxi Province[J].Carsologica Sinica,1988,7(1):57-62.
[10] 中华人民共和国卫生部.GB/T 5750-2006生活饮用水标准检验方法[S]. Ministry of Health of the People’s Republic of China.GB/T 5750-2006 Standard examination methods for drinking water-General Principles[S].
[11] 国家食品药品监督管理总局. GB 8538-2016饮用天然矿泉水检验方法[S]. State Administration for Market Regulation. GB 8538-2016 Methods for examination of drinking natural mineral water[S].
[12] 中华人民共和国自然资源部.DZ 0064-2021地下水质分析方法[S]. Ministry of Natural Resources of the People’s Repubic of China. DZ 0064-2021 Methods for analysis of groundwater quality[S].
[13] 中华人民共和国国土资源部.GB/T 14848-2017地下水质量标准[S]. Ministry of Natural Resources of the People’s Repubic of China. GB/T 14848-2017 Standard for groundwater quality[S].
[14] 国家环保总局.GB 3838-2002地表水环境质量标准[S]. Ministry of Environmental Protection of the People’s Republic of China.GB 3838-2002 Environmental quality standards for surface water[S].
[15] 中华人民共和国国土资源部.DZ/T 0290-2015地下水水质标准[S]. Ministry of Land and Resources of the People’s Republic of China.DZ/T 0290-2015 Standard for groundwater quality[S].
[16] 刘前进,董毓,封林波.九江地区长江沿岸工程地质特征与岸坡稳定性探讨[J].华东地质,2017,38(2):147-154. LIU Q J,DONG Y,FENG L B. Engineering geological characteristics and bank slope stability in the Jiujiang region along the Yangtze River[J].East China Geology,2017,38(2):147-154.
[17] 杨永革,赵毅斌,陈静,等.江西景德镇城区岩溶塌陷地质特征及防治建议[J].华东地质,2017,38(4):306-313. YANG Y G,ZHAO Y B,CHEN J, et al. Characteristics and prevention measures of Karst collapses in the Jingdezhen urban area, Jiangxi Province[J].East China Geology,2017,38(4):306-313.
[18] 蒋忠诚,夏日元,时坚,等.西南岩溶地下水资源开发利用效应与潜力分析[J].地球学报,2006,27(5):495-502. JIANG Z C, XIA R Y, SHI J, et al. The Application Effects and Exploitation Capacity of Karst Underground Water Resources in Southwest China[J]. Acta Geoscientica Sinca, 2006,27(5):495-502.
[19] 王伟.基于层次分析法的表层带岩溶水资源评价方法探讨——以大小井流域为例[J].贵州地质,2007,24(1):17-21,26. WANG W. Evaluation Method for Epikarst Water Resources Based on Analytic Hierarchy Process:A Case Study of the Daxiaojing Drainage Area[J]. Guizhou Geology, 2007,24(1):17-21,26.
[20] 李东.贵州表层带岩溶水特征及有效开发利用[J].金属材料与冶金工程,2010,38(4):60-63. LI D. Features of Guizhou Epikarst Water as well as Effective Development and Utilization[J].Metal Materials and Metallurgy Engineering,2010,38(4):60-63.
[21] 高渐飞,熊康宁,覃焕勋.基于极度干旱条件下的喀斯特峡谷区水资源利用方式——以贵州花江峡谷示范区为例[J].中国农村水利水电,2015(9):119-122,127. GAO J F,XIONG K N,QIN H Y.Water Resources Using Methods under Extreme Drought Conditions in Karst Gorge Areas:Taking Huajiang Gorge Demonstration Area in Guizhou for Example[J].China Rural Water and Hydropower,2015(9):119-122,127.
[22] 焦彦杰,吴文贤,杨剑,等.云南岩溶石山区物探找水方法与实例分析[J].中国地质,2011,38(3):770-778. JIAO Y J,WU W X,YANG J, et al. Geophysical water exploration methods in stone mountain Karst areas and case analysis[J].Geology in China, 2011, 38(3):770-778.
[23] 潘晓东,唐建生,苏春田,等.贵州高原斜坡岩溶地区逆断层两盘地下水开采规律探讨[J].地质论评,2015,61(1):121-127. PAN X D, TANG J S, SU C T, et al. Discussion of Groundwater Exploring in Compressive Fault Zones in Karst Areas of Guizhou Plateau Slopes[J].Geological Review, 2015, 61(1):121-127.

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备注/Memo

备注/Memo:
收稿日期:2021-6-11;改回日期:2021-9-7。
基金项目:中国地质调查局"赣江流域水文地质调查(编号:DD20190329)"项目资助。
作者简介:刘前进,1987年生,男,高级工程师,本科,主要从事水文地质、环境地质方面的工作。Email:44607152@qq.com。
更新日期/Last Update: 1900-01-01