3S技术支持下的汝溪河水土流失动态监测及分析

张 穗; 姜 莹; 李 喆

doi:10.11988/ckyyb.20160810

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长江科学院院报 ›› 2016, Vol. 33 ›› Issue (11) : 21-27. DOI: 10.11988/ckyyb.20160810

遥感技术应用

3S技术支持下的汝溪河水土流失动态监测及分析

张穗,姜莹, 李喆

作者信息 +

Dynamic Monitoring and Analysis on the Changes of Soil andWater Loss of Ruxi River Based on 3S Technology

ZHANG Sui, JIANG Ying,LI Zhe

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文章历史 +

摘要

为促进水土保持与水土资源利用提供基础数据和决策依据,在3S技术支持下开展水土流失与生态环境动态监测。选取三峡库区汝溪河小流域作为研究区域,根据区域土地利用类型、植被覆盖度信息,并综合所收集的当地水保资料和地形坡度数据等,进行空间叠加分析,确定土壤侵蚀类型、强度分级与分布情况。参照《土壤侵蚀分级标准》,对2014年、2015年2个时期的汝溪河进行水土流失动态分析,并采用转移矩阵法对2个时期土地利用转化方向与转化面积进行合理性分析。研究结果表明2014—2015年2 a之间,汝溪河小流域的土地利用方式有结构性调整,水土流失分布情况大体趋于稳定,微度水土流失面积略增加,轻度、强度水土流失面积基本持平,中度水土流失略降低,极强、剧烈水土流失情况有所缓解。

Abstract

In the aim of providing basic data and decision-making basis for soil and water conservation work,we carried out dynamic monitoring on soil and water loss and ecological environment under the support of RS, GIS and GPS technologies. With Ruxi River in Three Gorges Reservoir region as study area, we obtained the pattern, intensity and distribution of soil erosion through spatial overlay based on information of land-use types, vegetation coverage and slope gradient.According to Classification standard of soil erosion, we analyzed the dynamic changes of soil and water loss in 2014 and 2015, and adopted transfer matrix to analyze the area and types of land-use changes. Results suggest that from 2014 to 2015,although the land-use patterns of Ruxi River have experienced structural adjustment, the distribution of soil and water loss were generally stable. The area of microsoil erosion was slightly increased, the area of mild and intense soil erosion kept balance,the area of moderate soil erosion was slightly reduced, and the extremely or severe conditions have been alleviated.

导出引用

张穗,姜莹, 李喆. 3S技术支持下的汝溪河水土流失动态监测及分析[J]. 长江科学院院报. 2016, 33(11): 21-27 https://doi.org/10.11988/ckyyb.20160810

ZHANG Sui, JIANG Ying,LI Zhe. Dynamic Monitoring and Analysis on the Changes of Soil andWater Loss of Ruxi River Based on 3S Technology[J]. Journal of Changjiang River Scientific Research Institute. 2016, 33(11): 21-27 https://doi.org/10.11988/ckyyb.20160810

中图分类号： S157 TP79

参考文献

[1]邵子玉. 基于高分辨率遥感影像的水土流失监测方法研究.中国水土保持,2010,(2):11-12. doi:10.3969/j. issn.1000- 0941.2010.02.005.
[2]詹小国,谭德宝,朱永清,等. 基于RS和GIS的三峡库区水土流失快速动态监测研究.长江科学院院报,2003,20(1):44-46.
[3]刘纪根, 邹翔. 基于RS 与GIS 水土流失数据库的建立——以乌东德水电站坝址区为例. 长江科学院院报,2008,25(3):100-103.
[4]HABOUDANE D, BONN F, ROYER A, et al. Land Degradation and Erosion Risk Mapping by Fusion of Spectrally-based Information and Digital Geomorphometric Attributes. International Journal of Remote Sensing, 2002, 23(18): 3795-3820.
[5]赵鹏祥,刘广全,王得祥,等.“3S”技术用于黄土高原小流域退耕还林的方法构想. 西北林学院学报, 2003, 18(1): 96-98.
[6]徐丰,曹宏,廖章志. 遥感技术在开发建设项目水土保持监测中的应用——以洪家渡水电站为例. 中国水土保持, 2008, (3): 42-44.
[7]中国科学院计算机网络信息中心.地理空间数据云.(2010-8-26).http://www.gscloud.cn/ sources/? Cdataid =302&pdataid=10.
[8]周月敏. 面向小流域管理的水土保持遥感监测方法研究. 北京:中国科学院遥感应用研究所, 2005.
[9]SL592—2012,水土保持遥感监测技术规范. 北京:中国水利水电出版社,2012:3-36.
[10]倪晋仁,韩鹏,张剑.基于自组织理论的黄土坡面细沟发育特征分析.水利学报,2002, (1):6-9.
[11]SL190—2007,土壤侵蚀分类分级标准. 北京:中国水利水电出版社, 2008:3-12.
[12]赵善伦, 尹民, 张伟. GIS支持下的山东省土壤侵蚀空间特征分析. 地理科学, 2002, 22( 6): 694-699.
[13]张宇宾. 县域水土流失监测信息系统初步研究——以湖北南漳县为例. 北京: 中国科学院研究生院, 2002.