1988—2013年陕北风沙区秃尾河流域土壤侵蚀时空变化特征

doi:10.16843/j.sswc.2018.04.008

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摘要为研究陕北风沙区水土流失变化，在ArcGIS和ENVI软件中，利用降雨、地形、土地利用和植被覆盖数据，结合通用土壤侵蚀模型（USLE）估算榆林市秃尾河流域1988—2013年水土流失变化。结果表明：1）26年来降雨侵蚀力呈现增加趋势，植被覆盖C因子减少约0.29；2）整个流域土壤侵蚀模数大幅减少，尤其是中度以上侵蚀由1988年的面状分布，变成2013年的线状和星状分布，流域内土壤侵蚀强度表现出从上游向下游逐渐增加的特征，土壤侵蚀无论从强度和面积上都有明显改善，在降雨侵蚀力相似的情况下，2013年比1988年土壤侵蚀模数减少了8 713.62 t/（km²·a），总侵蚀量减少了68.33%；3）土壤侵蚀模数随高程增加呈现递减趋势，随坡度增加呈现递增趋势，流域上游的木独兔镇、大保当镇侵蚀强度明显小于下游大河塔镇、安崖镇等地区；4）不同土地利用类型下土壤侵蚀强度大小依次是未利用土地、草地、林地和耕地。在水土流失治理后，未利用土地和草地的水土保持效益最明显。对比退耕还林前后，陕北风沙区典型流域的水土治理取得明显效益。

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	杨波
	王全九
	郭思琪

关键词 ：土壤侵蚀, RUSLE, ArcGIS 9.3, 秃尾河流域

Abstract：[Background] Tuwei river watershed is one of the most serious soil loss and fragile district of ecology in the middle reaches of the Yellow River, which is located in the windy desert region of the north Shaanxi province. The harsh natural environment has greatly done threat to the sustainable development. In order to improve the ecological environment, Chinese government has implemented the Grain for Green policy since 1999.[Methods] In order to explore the spatiotemporal evolution of soil erosion before and after Grain for Green Project in this area, USLE model, Remote Sensing (RS) and Geographic Information Systems (GIS) were accepted to analyze soil loss. Three remote sensing images of 1988, 200 and 2013 was interpreted in ENVI 5.2, and rainfall, topography, land use type and vegetation cover data were analyzed in ArcGIS 9.3. Universal Soil Loss Equation (USLE) was used to estimate a series of soil erosion modulus from 1988 to 2013.[Results] 1)The rainfall erosivity increased significantly from 2001 to 2013 and from 1988 to 2000,and the vegetation cover of C factor decreased by about 0.29 in past 26 years. The soil erosion intensity in the watershed showed a gradual increase from upstream to downstream.2)The soil erosion has an obviously decreased tendency, whatever in the area or the intensity. The R factor was approximately equivalence in 1988 and 2013, however, corresponding soil erosion modulus respectively were 12 434.47 t/(km²·a) in 1988 and 3 721.08 t/(km²·a) in 2013, respectively. The total soil loss in 1988 was 43.76×10⁶ t, while it sharply decreased by 68.33% in 2013(13.1×10⁶ t). Compared the soil loss in 1988, 2000 and 2013, it was a reducing trend with the increasing of elevation, but incremental tendency with slope. Compared with 1988, the average soil erosion modulus in 2013 in different slope rapidly decreased. It reduced 6 712.31 t/(km²·a), 7 668.51 t/(km²·a), 6 712.31 t/(km²·a), 8 885.27 t/(km²·a), 5 375.43 t/(km²·a), and 23 357.46 t/(km²·a) in 0°-5°, 5°-8°, 8°-15°, 15°-25° and over 25°, respectively. The descending order of soil erosion intensity in different land use was unused land, grassland, forestland and cropland, so the benefit of soil and water conservation was the most obvious in unused land and grassland.[Conclusions] The soil erosion value estimated by USLE model combined with RS and GIS was smaller than the observed value in Tuwei river watershed. Yet despite all that, the assessment soil loss value is credible results. This method is feasible to assess soil erosion in such areas. In the recent 26 years, with the rapid recovery growth of grass and forest in the Tuwei river watershed, the soil and water conservation has achieved significant benefits. It has really reflected the temporal and spatial changes of soil erosion, which can be a reference for the local government to take measures to manage soil loss in the future.

Key words： soil erosion RUSLE ArcGIS 9.3 Tuwei river watershed

收稿日期: 2017-09-14

PACS:

TP79

基金资助:国家自然科学基金重点项目"黄土坡地土壤养分随地表径流流失动力机制与模拟模型"（51239009）；陕西省教育厅哲学社会科学重点研究基地项目"陕西省帝陵封土土壤和植被演化特征"（16JZ089）

通讯作者: 王全九(1964-),男,教授,博士生导师。主要研究方向:农业水土工程与生态环境。E-mail:wquanjiu@163.com E-mail: wquanjiu@163.com

作者简介: 杨波(1979-),男,博士,讲师。主要研究方向:农业水土和资源环境变化。E-mail:326274340@qq.com

引用本文:

杨波^1,2, 王全九², 郭思琪³. 1988—2013年陕北风沙区秃尾河流域土壤侵蚀时空变化特征[J]. 中国水土保持科学, 2018, 16(4): 56-65.
YANG Bo, WANG Quanjiu, GUO Siqi. Characteristic of temporal and spatial variation of soil erosion in Tuwei river watershed from 1988 to 2013. SSWC, 2018, 16(4): 56-65.

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http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2018.04.008 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2018/V16/I4/56

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