白龙江中游干旱河谷水土流失与地理环境

doi:10.12118/j.issn.1000-6060.2019.05.07

干旱区地理 ›› 2019, Vol. 42 ›› Issue (5): 1023-1028.doi: 10.12118/j.issn.1000-6060.2019.05.07

白龙江中游干旱河谷水土流失与地理环境

魏宏庆^1,2，沈永平³，魏鹂慧⁴，张峰^1,2

1 甘肃省水利厅水利管理局，甘肃兰州 730000； 2 甘肃省河湖管理中心，甘肃兰州 730000； 3 中国科学院西北生态环境资源研究院，甘肃兰州 730000； 4 甘肃省永登县水务局，甘肃永登 730300

收稿日期:2019-02-15 修回日期:2019-05-12 出版日期:2019-09-25 发布日期:2019-09-18
作者简介:魏宏庆（1965-），男，高级工程师，大学本科，从事水土保持与河湖管理. E-mail:522956726@qq.com
基金资助:
国家自然科学基金重大项目（41690144）

Soil erosion and geographical environment in dry valley of the middle reaches of Bailong River

WEI Hong-qing^1,2, SHEN Yong-ping³, WEI Li-hui⁴, ZHANG Feng^1,2

1 Water Conservancy Bureau,Department of Water Resources of Gansu Province,Lanzhou 730000,Gansu,China; 2 River and Lake Administrative Center of Gansu Province,Lanzhou 730000,Gansu,China; 3 Northwest Institute of Eco-environment and Resources,CAS,Lanzhou 730000,Gansu,China; 4 Water Resource Bureau of Yongdeng County,Yongdeng 730300,Gansu,China

Received:2019-02-15 Revised:2019-05-12 Online:2019-09-25 Published:2019-09-18

摘要/Abstract

摘要： 基于实地调查研究，结合现有资料和研究成果，总结分析白龙江中游地理环境结构特点，调查研究该区水土流失性质、带状分异特征以及小流域形态结构，剖析地理环境与水土流失作用关系，提出以小流域为单元，以其空间结构有序和区段功能有序特征，配置水土保持防治措施体系，为建立综合治理模式提供有效参考。

关键词: font-size:10.5pt, 干旱河谷')">">干旱河谷, 地理环境, 水土流失, 白龙江

Abstract: The geological structure in the middle reaches of Bailong River in Gansu and Sichuan Province,China is composed of a series of east-west folds and faults,and the formation lithology is exposed from Silurian to Quaternary.The soft rocks and hard rocks are interlayer or interbedded superimostion,and the dry valleys have obvious climatic characteristics,which is the most active geological unit of landslides.Soil and water erosion in this area has reached extremely serious viscous debris flow property,and the spatial distribution is related to geological,geomorphic,climatic and human activity factors,showing vertical zonal differentiation characteristics.Most debris flow channels are formed gully with small drainage area and “scoop” shape.The geomorphologic process is orderly in space,forming a process of precipitation convergence—water and soil mixed-transport and soil erosion.Taking the small watershed of Ganjiagou as an example,using the orderly characteristics of spatial structure,the combination of arbor and shrubs is adopted in the precipitation gathering area to create 1 300 hm2 of soil and water conservation forest and grass,which effectively intercepts precipitation.In the unfavorable geological action areas such as landslide collapse,16 km of drainage ditch is arranged to take the surface water out of the landslide area; sloping farmland builds 580 hm2 of horizontal terraces to reduce runoff on the slope.Erosion gully layout of 25 masonry stone lanes,interception of sand and stones,the stability of the gully bed,fixed slope.Thirteen sand barriers were built in the transport area to raise the erosion standard in sections,reduce the gully bed ratio and destroy the groove boundary conditions.The dam body drainage and water sand separation were used to make the channel gradually silt,disperse fluid along the capacity.Drainage ditches will be set up in the accumulation areas to set aside super-standard flood channels,protect downstream villages,farmland and important infrastructure,fully configure the prevention and control system of water and soil conservation,and realize the comprehensive control of mountains,rivers,fields and forests.After years of observation and follow-up investigation,no debris flow disaster has occurred in the basin since the treatment was completed in 1998.Practice has proved the comprehensive management mode of small watershed of Ganjiagou use soil and water conservation ecological measures to change the mountain micro-geomorphology structure,artificially intervenes to transform the channel boundary conditions,and combines the treatment of gully and slope,unblocking and blocking,and highlighting the ecological,Which is the effective way of administer landslide and debris flow disasters under currently local economic and technological conditions,and provides an effective reference for establishing comprehensive management models in similar areas.

Key words: dry valley, geographical environment, soil erosion, Bailong River

魏宏庆, 沈永平, 魏鹂慧, 张峰. 白龙江中游干旱河谷水土流失与地理环境[J]. 干旱区地理, 2019, 42(5): 1023-1028.

WEI Hong-qing, SHEN Yong-ping, WEI Li-hui, ZHANG Feng. Soil erosion and geographical environment in dry valley of the middle reaches of Bailong River[J]. Arid Land Geography, 2019, 42(5): 1023-1028.

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白龙江中游干旱河谷水土流失与地理环境

Soil erosion and geographical environment in dry valley of the middle reaches of Bailong River

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白龙江中游干旱河谷水土流失与地理环境

Soil erosion and geographical environment in dry valley of the middle reaches of Bailong River

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