摘要
针对华北平原水文地质条件复杂,地下水开发利用程度高,地下水位埋深和包气带岩性在时间和空间上差异大的特点,基于大量钻孔和地下水位监测资料,将华北平原划分为4个水文地质单元,以埋深7 m作为降水入渗稳定点,根据各分区的水文地质条件对钻孔岩层赋予入渗系数值,应用加权平均法求得华北平原20世纪60年代、80年代和21世纪初的降水入渗系数分布图。利用华北平原1956—2008年水资源四级区逐月降水量数据,求得华北平原20世纪60年代、80年代和21世纪初各分区单元的降水入渗量。结果表明,50多年来华北平原降水量呈减少的趋势,降水入渗系数呈增加的趋势,降水入渗量呈增加的趋势。3个年代的降水入渗量分别是118.86×108,147.91×108和174.33×108 m3。
In the light of characteristics of North China Plain such as hydrogeological conditions, high degree utilization of grnundwater, remarkable differences in buried depth of groundwater, aerated zone and on the basis of large quantities of drilling and groundwater level monitoring data, we divided the North China Plain into four hydrogeological units, cnnsidering the depth of 7 meters as the precipitation infiltration boundaries and endowed drilling strata with infiltrati〈m coefficient according to the hydrogeological conditions of partitions, and obtained the precipitation infiltration coefficient distribution in the 1960s, 1980s and 2000s using weighted average method. The results indicate that the precipitation infiltration coefficient tends to increase with the decline of groundwater level. Although precipitation has a decrease tendency in nearly 50 years, the precipitation infiltration increased clue to the infiltration coefficient. The precipitatiun infiltration amount were 118.86×10^8 , 147.91×10^8 , 174.33 ×10^8 m^3 in the 1960s, 1980s and 2000s.
出处
《地球科学进展》
CAS
CSCD
北大核心
2013年第8期923-929,共7页
Advances in Earth Science
基金
国家重点基础研究发展计划项目"华北平原地下水演变机制与调控"(编号:2010CB428801)
中国地质调查局国土资源大调查项目"华北平原地下水污染调查评价"(编号:1212010634600)资助
关键词
降水入渗量
降水量
降水入渗系数
华北平原
Precipitation infiltration amount
Precipitation
Infiltration coefficient of precipitation
The North China Plain.
