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斋堂盆地的河谷地貌结构及近万年以来的水土流失概况
引用本文:刘静,夏正楷. 斋堂盆地的河谷地貌结构及近万年以来的水土流失概况[J]. 水土保持研究, 2005, 12(4): 90-92
作者姓名:刘静  夏正楷
作者单位:北京大学环境学院, 北京, 100871
基金项目:国家教育部博士点基金(编号:20030001100)
摘    要:根据斋堂盆地的河谷地貌结构,估算出10000aB.P.~8500aB.P.的河流年平均侵蚀量为158.0×103t/a,8500aB.P.~4000aB.P.的河流年平均堆积量为3.31×103t/a,4000aB.P.以来的河流年平均侵蚀量为96.3×103t/a。经比较得出,该区近万年以来的水土流失,受自然条件影响大。但随着人类活动作用的加强,人为因素逐渐成为水土流失的主导因素,现今的土地受人为破坏严重。

关 键 词:斋堂盆地  河谷地貌  水土流失
文章编号:1005-3409(2005)04-0090-03
修稿时间:2005-04-26

Fluvial Geomorphology of Zhaitang Basin and Water and Soil Erosion Since 10 000 a B.P.
LIU Jing,XIA Zheng-kai. Fluvial Geomorphology of Zhaitang Basin and Water and Soil Erosion Since 10 000 a B.P.[J]. Research of Soil and Water Conservation, 2005, 12(4): 90-92
Authors:LIU Jing  XIA Zheng-kai
Affiliation:College of Environment Sciences, Peking University, Beijing 100871, China
Abstract:Fieldworks of fluvial geomorphology of Zhaitang basin provided that fluvial erosion of every year during 10 000 a B. P.~8 500 a B. P. is about 158.0× 103 t/a, and fluvial accumulation of every year during 8 500 a B. P.~4 000 a B. P. is about 3.31× 103 t/a, and fluvial erosion of every year since 4 000 a B. P. is about 96.3× 103 t/a.Comparison of those shows that the main reason of water and soil erosion in this place since 10 000 a B. P. is the nature condition.But with the strengthen of human activity, man-made factors are becoming the main reasons, and the land is seriously destroyed by people.
Keywords:Zhaitang basin  fluvial geomorphology  water and soil erosion
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