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辽宁中南部地下井泉水化学组成特征

周志华1**,王海燕2,薛艳1   

  1. (1中国地震台网中心, 北京 100045; 2辽宁省地震局, 沈阳 110034)
  • 出版日期:2014-06-10 发布日期:2014-06-10

Geochemical component character of groundwater of central and southern Liaoning.

ZHOU Zhi-hua1**, WANG Hai-yan2, XUE Yan1   

  1. (1 China Earthquake Networks Center, Beijing 100045, China; 2 Liaoning Earthquake Administration, Shenyang 110034, China)
  • Online:2014-06-10 Published:2014-06-10

摘要:

掌握地下水化学组成特征对区域地下水环境保护、生态环境监测和表生地球化学过程研究具有重要意义。本文通过对辽宁中南部地下井泉水的物理化学性质、水化学组成和水中逸出气体组成的测定,讨论了研究区内各种地下水体的化学组成类型和形成过程。区域内水化学组成类型多样,可划分为:NaCa-HCO3、CaMg-NO3、Na-CO3SO4、CaMg-HCO3、Ca-HCO3、Na-SO4等共计6种水化学类型。逸出气体中主要含有N2、CO2、CH4、He,表明地下水体形成过程中受到有机来源和地球深部来源物质影响。个别区域水体也受到农业生产影响,水化学组成类型有别于天然水体。区域内地下水受储层深度、出露位置、断裂性质、沉积物粒度和岩性、混合作用等共同控制,从而形成了不同的水化学组成类型。本文研究结果对辽宁中南部地区生态环境信息掌握和保护,表生带化学元素迁移途径和机理的阐明等具有一定意义。
 

关键词: 白皮松, 土壤繁殖体库, 外生菌根真菌

Abstract: Understanding the geochemical character of groundwater is important for regional groundwater environment protection, ecological environment monitoring and study of biogeochemical processes of earth surface. This paper discussed hydrochemistry types and formation processes of groundwater, according to the physicochemical properties, chemical composition and evolved gas composition of groundwater in the central and southern Liaoning. There were six hydrochemistry types in the research areas, i.e. NaCa-HCO3, CaMg-NO3, Na-CO3SO4, CaMg-HCO3, Ca-HCO3, and Na-SO4. Evolved gases mainly contain N2, CO2, CH4 and He, indicating that the underground water was impacted by the materials of organic source and earth deep source. The underground water in some regions had been affected by agricultural production, and the hydrochemistry type was different from that of the natural underground water. The different hydrochemistry types of underground water in different regions were jointly controlled by reservoir depth, exposed position, fracture property, grain size and lithology. This study has an important significance for protecting the ecological environment of the central and southern Liaoning, and clarifying the chemical element migration pathway and mechanism of the supergene zone.

Key words: ectomycorrhizal fungi, soil propagule bank, Pinus bungeana