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基于土壤数据和遥感影像的鄂尔多斯高原北部地貌分类(英文)
引用本文:罗艳云,刘廷玺,王喜喜,段利民,张圣微,石军孝. 基于土壤数据和遥感影像的鄂尔多斯高原北部地貌分类(英文)[J]. 地理学报(英文版), 2012, 22(4): 681-698. DOI: 10.1007/s11442-012-0956-8
作者姓名:罗艳云  刘廷玺  王喜喜  段利民  张圣微  石军孝
作者单位:College of Conservancy and Civil Engineering,Inner Mongolia Agricultural University;Hydraulics/Water Resources Laboratory,Department of Civil and Environmental Engineering,Old Dominion University
基金项目:National Natural Science Foundation of China,No.51139002;No.51069005;Inner Mongolia Agricultural University Innovation Team Building Program Cold-Arid Region Water Resources Utilization, No.NDTD2010-6;Inner Mongolia Scientific and Technology Bureau,No.20090516;Project of the Ministry of Science and Technology of China,No.2010DFA71460
摘    要:Landform classification is commonly done using topographic altitude only.However,practice indicates that locations at a same altitude may have distinctly different landforms,depending on characteristics of soils underneath those locations.The objectives of this study were to:1) develop a landform classification approach that is based on both altitude and soil characteristic;and 2) use this approach to determine landforms within a watershed located in northern Ordos Plateau of China.Using data collected at 134 out of 200 sampling sites,this study determined that D10(the diameter of soil particles 10% finer by weight) and long-term average soil moisture acquired in 2010,which can be estimated at reasonable accuracy from remote sensing imagery,can be used to represent soil characteristics of the study watershed.Also,the sampling data revealed that this watershed consists of nine classes of landforms,namely mobile dune(MD),mobile semi-mobile dune(SMD),rolling fixed semi-fixed dune(RFD),flat sandy land(FD),grassy sandy land(GS),bedrock(BR),flat sandy bedrock(FSB),valley agricultural land(VA),and swamp and salt lake(SW).A set of logistic regression equations were derived using data collected at the 134 sampling sites and verified using data at the remaining 66 sites.The verification indicated that these equations have moderate classification accuracy(Kappa coefficients > 43%).The results revealed that the dominant classes in the study watershed are FD(36.3%),BR(27.0%),and MD(23.5%),while the other six types of landforms(i.e.,SMD,RFD,GS,FSB,VA,and SW) in combination account for 13.2%.Further,the landforms determined in this study were compared with the classes pre-sented by a geologically-based classification map.The comparison indicated that the geo-logically-based classification could not identify multiple landforms within a class that are de-pendent upon soil characteristics.

关 键 词:landform classification  remote sensing  soil physical characteristic  logistic  topography  northern Ordos Plateau
收稿时间:2011-11-27

Landform classification using soil data and remote sensing in northern Ordos Plateau of China
LUO Yanyun , LIU Tingxi , WANG Xixi , DUAN Limin , ZHANG Shengwei , SHI Junxiao. Landform classification using soil data and remote sensing in northern Ordos Plateau of China[J]. Journal of Geographical Sciences, 2012, 22(4): 681-698. DOI: 10.1007/s11442-012-0956-8
Authors:LUO Yanyun    LIU Tingxi    WANG Xixi    DUAN Limin    ZHANG Shengwei    SHI Junxiao
Affiliation:1. College of Conservancy and Civil Engineering, Inner Mongolia Agricultural University, Hohhot 010018, China;2. Hydraulics/Water Resources Laboratory, Department of Civil and Environmental Engineering, Old Dominion University, Norfolk 23529, USA
Abstract:Landform classification is commonly done using topographic altitude only.However,practice indicates that locations at a same altitude may have distinctly different landforms,depending on characteristics of soils underneath those locations.The objectives of this study were to:1) develop a landform classification approach that is based on both altitude and soil characteristic;and 2) use this approach to determine landforms within a watershed located in northern Ordos Plateau of China.Using data collected at 134 out of 200 sampling sites,this study determined that D10(the diameter of soil particles 10% finer by weight) and long-term average soil moisture acquired in 2010,which can be estimated at reasonable accuracy from remote sensing imagery,can be used to represent soil characteristics of the study watershed.Also,the sampling data revealed that this watershed consists of nine classes of landforms,namely mobile dune(MD),mobile semi-mobile dune(SMD),rolling fixed semi-fixed dune(RFD),flat sandy land(FD),grassy sandy land(GS),bedrock(BR),flat sandy bedrock(FSB),valley agricultural land(VA),and swamp and salt lake(SW).A set of logistic regression equations were derived using data collected at the 134 sampling sites and verified using data at the remaining 66 sites.The verification indicated that these equations have moderate classification accuracy(Kappa coefficients > 43%).The results revealed that the dominant classes in the study watershed are FD(36.3%),BR(27.0%),and MD(23.5%),while the other six types of landforms(i.e.,SMD,RFD,GS,FSB,VA,and SW) in combination account for 13.2%.Further,the landforms determined in this study were compared with the classes pre-sented by a geologically-based classification map.The comparison indicated that the geo-logically-based classification could not identify multiple landforms within a class that are de-pendent upon soil characteristics.
Keywords:landform classification  remote sensing  soil physical characteristic  logistic  topography  northern Ordos Plateau
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