激光微地貌扫描仪测定侵蚀过程中地表糙度

为研究激光微地貌扫描仪用于测定南方红壤地区地表微地貌的演变特征和规律的可行性,该研究应用亚毫米级高精度激光扫描和计算机数字图像处理相结合的方法,在野外原位研究了鄂南3个典型红壤(泥质页岩发育红壤、第四纪红黏土发育红壤1和第四纪红黏土发育红壤2)模拟降雨条件下坡面侵蚀过程中的地表糙度变化过程,初步探讨了降雨和径流对红壤坡面微地貌形态演变作用。结果表明:1)随着降雨进行,雨滴打击和径流搬运的联合作用导致地表糙度降低,间歇式降雨后,供试土壤泥质页岩发育红壤、第四纪红黏土发育红壤1和第四纪红黏土发育红壤2的地表糙度分别降低了18.2%、18.4%和11.8%;2)地表糙度变化主要发生在降雨初期,第1场...

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Published in农业工程学报 Vol. 30; no. 22; pp. 155 - 162
Main Author 张利超 杨伟 李朝霞 蔡崇法 王天巍
Format Journal Article
LanguageChinese
Published 江西省水土保持科学研究院 江西省土壤侵蚀与防治重点实验室,南昌 330029 2014
华中农业大学农业部长江中下游耕地保育重点实验室,武汉 430070%华中农业大学农业部长江中下游耕地保育重点实验室,武汉 430070
湖北省水利水电科学研究院,武汉 430070%华中农业大学农业部长江中下游耕地保育重点实验室,武汉,430070
Subjects
侵蚀
土壤
微地貌
数字高程模型
激光
糙度
lasers
侵蚀
数字高程模型
糙度
激光
digital elevation model
roughness
微地貌
erosion
soils
土壤
microrelief
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ISSN1002-6819
DOI10.3969/j.issn.1002-6819.2014.22.019

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Summary:为研究激光微地貌扫描仪用于测定南方红壤地区地表微地貌的演变特征和规律的可行性,该研究应用亚毫米级高精度激光扫描和计算机数字图像处理相结合的方法,在野外原位研究了鄂南3个典型红壤(泥质页岩发育红壤、第四纪红黏土发育红壤1和第四纪红黏土发育红壤2)模拟降雨条件下坡面侵蚀过程中的地表糙度变化过程,初步探讨了降雨和径流对红壤坡面微地貌形态演变作用。结果表明:1)随着降雨进行,雨滴打击和径流搬运的联合作用导致地表糙度降低,间歇式降雨后,供试土壤泥质页岩发育红壤、第四纪红黏土发育红壤1和第四纪红黏土发育红壤2的地表糙度分别降低了18.2%、18.4%和11.8%;2)地表糙度变化主要发生在降雨初期,第1场降雨前后,泥质页岩发育红壤、第四纪红黏土发育红壤1和第四纪红黏土发育红壤2的地表糙度降低幅度分别为16.1%、19.7%和9.6%,均达到显著水平。采用亚毫米级高精度激光扫描和计算机数字图像处理相结合的方法,能很好地定量化研究坡面水蚀过程中地表糙度的演变特征和规律。研究为南方红壤区坡面水蚀过程中地表微地貌的研究提供一定的参考,对土壤侵蚀过程模拟与预测模型的研究具有一定的参考价值。
Bibliography:11-2047/S
Soil surface microrelief plays an important role on the soil erosion processes like runoff, infiltration, soil sealing and sediment transport. However, there is relatively little study on the soil surface microrelief in soil erosion process and those studies are mostly conducted in the Loess Plateau in China. The purpose of this study was to study the feasibility of applying the Instantaneous-Profile Laser Scanner imported from the USA to determine the features and law of soil surface microrelief evolution in red soil region of Southern China. In this study, three soils derived from Quaternary red clay and Shale widely distributed in red soil region were selected, and the changes of soil surface microrelief during rainfall were studied in three intermittent rainfall events by using the Instantaneous-Profile Laser Scanner. With both its positional accuracy and elevational accuracy amounting to 0.5 mm, the Instantaneous-Profile Laser Scanner has been widely applied to the soil erosion process, soil phy
ISSN:1002-6819
DOI:10.3969/j.issn.1002-6819.2014.22.019