期刊文献+

贵州省鸭池河至构皮滩流域地下水固有防污性能评价

Evaluation of underground-water vulnerability in the basin of YaChiHe to GouPiTan in Guizhou
下载PDF
导出
摘要 贵州省鸭池河至构皮滩流域面积较大、岩溶地层分布广泛、历史调查程度较低;通过综合分析,结合研究区背景特征,以地下水水面为资源保护目标,选取了降雨量、土壤类型、包气带岩石、表层岩溶发育率四个因子进行了地下水防污性能评价,得到了研究区地下水固有防污性能分区。其成果可以有效指导研究区的地下水资源管理工作,并为地下水资源保护和土地利用规划提供科学依据。 The area of YaChiHe to GouPiTan drainage basin in Guizhou Province, the karst strata are widely distributed and the degree of historical investigation is low. Based on the comprehensive analysis and combined with the background characteristics of the study area, taking the groundwater surface as the resource protection target, four factors, rainfall, soil type, rock in the aeration zone and the karst development rate of the surface layer, are selected to evaluate the groundwater pollution prevention performance, and the underground water in the study area is obtained Division of inherent antifouling performance of water. The results can effectively guide the management of groundwater resources in the study area, and provide scientific basis for groundwater resource protection and land use planning.
作者 沈诚 Shen Cheng(College of Environmental Monitoring of Guizhou Province,Guiyang550004,Guizhou)
出处 《西部资源》 2020年第3期137-139,共3页 Western Resources
关键词 鸭池河至构皮滩 地下水 固有防污性能 评价 YaChiHe to GouPiTan Underground-water Evaluation Vulnerability in the basin
  • 相关文献

参考文献2

二级参考文献26

  • 1蒋忠诚,夏日元,时坚,裴建国,何师意,梁彬.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. 被引量:60
  • 2钟佐燊.地下水防污性能评价方法探讨[J].地学前缘,2005,12(U04):3-13. 被引量:137
  • 3邹胜章,张文慧,梁彬,陈宏峰,梁小平.西南岩溶区表层岩溶带水脆弱性评价指标体系的探讨[J].地学前缘,2005,12(U04):152-158. 被引量:39
  • 4SCHIK)SSER S A, McCRAY J E, HYLE E M. A subregional-scale method to assess aquifer vulnerability to pesticides[J]. Ground Water, 2002, 40(4):361-367.
  • 5ALLEIR L, BENNETT T, LEHR J H, et al. DRASTIC: A standardized system for evaluating groundwater potential using hydrogeological settings[A]. ROBERT S K. US EPA Report[R]. Environmental Research Laboratory, Ada Oklahorrm,1985.
  • 6IBE K M, COLLIN M L, MELLOULA J. Assessment of ground water vulnerability and its application to the development of protection strategy for the water supply aquifer in Owerri southern Nigeria[J]. EnvironmentalMonitoring and Assessment, 2001, 67:323-360.
  • 7KIM Y J, HAMM S Y. Assessment of the potential for groundwater contamination using the DRASTIC/EGIS technique in Cheogju area, South Korea[J]. Hydrogeology Journal, 1999, 7:227-235.
  • 8SECUNDA S, COlA.IN M L, MEI.LOUI. A J. Ground water vulnerability assessment using a composite model combining DRASTIC with extensive agricultural land use in Israel's Saron region[J]. J Environ Management, 1998, 54:39-57.
  • 9VIERHUFF H. Classification of groundwater resources for regional planning with regard to their vulnerability to pollution[A], van DUIJVENBOODEN W, GLASBERGEN P,van LEYVELD H. Studies in Environmental Science EC].1981,17:1101-1104.
  • 10GOGU R C, DASSARGUES A. Current trends and future challenges in ground water vulnerability assessment using overly and index methods[J]. Environmental Geology, 2000,39 (6):549-559.

共引文献163

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部