Gully Erosion Regionalization of Black Soil Area in Northeastern China

YANG Jiuchun; ZHANG Shuwen; CHANG Liping; LI Fei; LI Tianqi; GAO Yan

doi:10.1007/s11769-017-0848-z

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Article Navigation > Chinese Geographical Science > 2017 > 27(1): 78-87

YANG Jiuchun, ZHANG Shuwen, CHANG Liping, LI Fei, LI Tianqi, GAO Yan. Gully Erosion Regionalization of Black Soil Area in Northeastern China[J]. Chinese Geographical Science, 2017, 27(1): 78-87. doi: 10.1007/s11769-017-0848-z

Citation:

YANG Jiuchun, ZHANG Shuwen, CHANG Liping, LI Fei, LI Tianqi, GAO Yan. Gully Erosion Regionalization of Black Soil Area in Northeastern China[J]. Chinese Geographical Science, 2017, 27(1): 78-87. doi: 10.1007/s11769-017-0848-z

Gully Erosion Regionalization of Black Soil Area in Northeastern China

doi: 10.1007/s11769-017-0848-z

1.
Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun 130102, China;
2.
College of Earth Science, Jilin University, Changchun 130069, China;
3.
College of Environment and Planning, Henan University, Kaifeng 475000, China;
4.
Songliao River Basin Water Conservancy Committee, Ministry of Water Resources, Changchun 130021, China

Funds: Under the auspices of National Natural Science Foundation of China (No. 41301467, 41271416), Special Foundation of National Science and Technology Basic Work of China (No. 2013FY112800)

More Information

Corresponding author: ZHANG Shuwen.E-mail:zhangshuwen@iga.ac.cn
Received Date: 2016-01-05
Rev Recd Date: 2016-04-09
Publish Date: 2017-02-27

Abstract

Gully erosion is the frequent and main form of soil erosion in the black soil area of the northeastern China, which is one of the most important commodity grain production bases in China. It is encroaching upon the fertile farmland there. Regionalization of gully erosion can reveal the spatial distribution and regularity of the development of gully erosion. Based on the eco-geographical regional background features of the black soil area, this study combined the regionalization with influencing factors of the development of gully erosion. GIS spatial analysis, geostatistical analysis, spatial statistics, reclassification, debris polygon processing and map algebra methods were employed. As a result, the black soil area was divided into 12 subregions. The field survey data on type, length, volume and other characteristics indicators of gully erosion were used to calibrate the results. Then the features of every subregion, such as where the gully erosion is, how serious it is, and why it happens and develops, were expounded. The result is not only an essential prerequisite for gully erosion surveys and monitoring, but also an important basis for gully erosion prevention.
- regionalization,
- gully erosion,
- soil and water conservation,
- black soil area,
- northeastern China

References

[1]	Bai Jianhong, Hui Lijun, 2015. The preliminary investigation of gully development and harm in Black Soil Region of Northeast China. Soil and Water Conservation in China, 8:68-70. doi:10.14123/j.cnki.swcc.2015.0230. (in Chinese).
[2]	Conoscenti C, Angileri S, Cappadonia C et al., 2014. Gully erosion susceptibility assessment by means of GIS-based logistic regression:a case of Sicily (Italy). Geomorphology, 204(1):399-411. doi: 10.1016/j.geomorph.2013.08.021
[3]	Dirk R, 2012. The ET₀ Calculator:Evapotranspiration from a Reference Surface. Roman:Food and Agriculture Organization of the United Nations Press.
[4]	Dotterweich M, Rodzik J, Wojciech Z et al., 2012. High resolution gully erosion and sedimentation processes and land use changes since the Bronze Age and future trajectories in the Kazimierz Dolny area (SE-Poland). Catena, 95:50-62. doi: 10.1016/j.catena.2012.03.001
[5]	Dotterweich M, Stankoviansky M, Minár J et al., 2013. Human induced soil erosion and gully system development in the late Holocene and future perspectives on landscape evolution:The Myjava Hill Land, Slovakia. Geomorphology, 201(4):227-245. doi: 10.1016/j.geomorph.2013.06.023
[6]	Fan Haoming, Cai Qiangguo, Chen Guang et al., 2005. Compara-tive study of the soil erosion and control in the three major black soil regions in the world. Journal of Natural Resources, 20(3):387-393. (in Chinese)
[7]	Fan Haoming, Gu Guanghe, Wang Yansong et al., 2013. Charac-teristics of eroded gully development and environment of black soil region in Northeast China. Soil and Water Conservation in China, 10(379):75-79. doi:10.101423/j.cnki. swcc.2013.10. 021. (in Chinese)
[8]	Fan Jianrong, Pan Qingbing, 2002. The harm and control measures of soil erosion in typical black soil region of Northeast China. Scientific and Technical Information of Soil and Water Conservation, 5:36-38. (in Chinese)
[9]	Guan Junwei, 1995. The Principle of Soil and Water Conservation. Beijing:China Forestry Publishing House. (in Chinese)
[10]	Huang Bingwei, 1955. The experience and lessons from region-alization of soil erosion in the middle valley of Yellow River. Chinese Science Bulletin, 12:15-21. (in Chinese)
[11]	Kakembo V, Xanga W W, Rowntree K, 2009. Topographic thresholds in gully development on the hillslopes of communal areas in Ngqushwa Local Municipality, Eastern Cape, South Africa. Geomorphology, 110(3-4):188-194. doi:10.1016/j. geomorph.2009.04. 006
[12]	Li Tianqi, 2012. A case study and module simulation of gully ero-sion in black soil region. PhD thesis. Changchun:Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences. (in Chinese)
[13]	Li T Q, Zhang S W, Wang W J, 2010. Study on static effect factors of gully assisted by RS and GIS in black soil region. Pro-ceedings of 2010 International Conference on Management Science and Engineering, 5:409-412.
[14]	Li Wei, Zhang Pingyu, Song Yuxiang, 2005. Analysis on land development and causes in Northeast China during Qing Dyn-asty. Scientia Geographica Sinica, 25(1):7-16. doi:10. 13249/j.cnki.sgs. 2005.01.002. (in Chinese)
[15]	Li X S, Wu B F, Zhang L, 2013. Dynamic monitoring of soil ero-sion for upper Stream of Miyun Reservoir in the last 30 years. Journal of Mountain Science, 10(5):801-811. doi:10.1007/s 11629-013-2559-y
[16]	Lucà F, Conforti M, Robustelli G, 2011. Comparison of GIS-based gullying susceptibility mapping using bivariate and multivariate statistics:northern Calabria, South Italy. Geo-morphology, 134(3-4):297-308. doi:10.1016/j.geomorph. 2011.07.006
[17]	Luffman I E, Nandi A, Spiegel T, 2015. Gully morphology, hillslope erosion, and precipitation characteristics in the Ap-palachian Valley and Ridge province, southeastern USA. Ca-tena, 133:221-232. doi: 10.1016/j.catena.2015.05.015
[18]	Moore I D, Lewis A, Gallant J C, 1991. Terrain Attributes:Esti-mation Methods and Scale Effects. Chichester:Wiley.
[19]	Sanginés-Franco C, Luna-Vega I, Contreras-Medina R et al., 2015. Diversity, endemism and conservation of Ferns (Polypodiales) in the Mexican Mountain Component. Journal of Mountain Science, 12(4):891-904. doi: 10.1007/s11629-014-3070-9
[20]	Saxton N E, Olley J M, Smith S et al., 2012. Gully erosion in sub-tropical south-east Queensland, Austrilia. Geomorphology, s173-174(9):80-87. doi: 10.1016/j.geomorph.2012.05.030
[21]	Shruthi R B V, Kerle N, Jetten V, 2011. Object-based gully feature extraction using high spatial resolution imagery. Geo-morphology, 134(3-4):260-268. doi:10.1016/j.geomorph. 2011.07.003
[22]	Shruthi R B V, Kerle N, Jetten V et al., 2014. Object-based gully system prediction from medium resolution imagery using random forests. Geomorphology, 216:283-294. doi:10.1016/j. geomorph.2014.04.006
[23]	The Ministry of Water Resources of the People's Republic of China, 2006. Specifications for Compilation of Soil and Water Conservation Planning (SL335-2006). Beijing:China Water & Power Press. (in Chinese)
[24]	The Ministry of Water Resources of the People's Republic of China, 2007. Standards for Classification and Gradation of Soil Erosion (SL190-2007). Beijing:China Water & Power Press. (in Chinese)
[25]	The Ministry of Water Resources of the People's Republic of China, 2013. National Regionalization of Key Areas for Moni-toring and Defending of Soil Erosion and Key Controlling Ar-eas of Soil Erosion (SL188-2013). Beijing:China Water & Power Press. (in Chinese)
[26]	Superson J, Rodzik J, Reder J, 2014. Natural and human influence on loess gully catchment evolution:a case study from Lublin Upland, E Poland. Geomorphology, 212(6):28-40. doi: 10.1016/j.geomorph.2013.09.011
[27]	Tang W J, Liu H H, Liu B Y, 2013. Effects of gully erosion and gully filling on soil degradation in the black soil region of Northeast China. Journal of Mountain Science, 10(5):913-922. doi: 10.1007/s11629-013-2560-5
[28]	Wang Wenjuan, Zhang Shuwen, Deng Rongxin, 2011. Gully status and relationship with landscape pattern in black soil area of Northeast China. Transactions of the CSAE, 27(10):192-198. doi:10.3969/j.issn.1002-6819.2011.10.034. (in Chinese)
[29]	Wang Wenjuan, Zhang Shuwen, Li Ying et al., 2009. Dynamics and effect factors of gully in the black soil area of Northeast during the past 40 years. Journal of Soil and Water Conserva-tion, 23(5):51-55. (in Chinese)
[30]	Wang Yuxi, Xie Yunjie, Wang Ping, 2002. Analysis on the causes of soil erosion in black soil region of Northeast China. Scientific and Technical Information of Soil and Water Conservation, 3:27-29. (in Chinese)
[31]	Xie Yunjie, Wang Yansong, Wang Yuxi, 2005. Defining of cher-nozem area and zoning of soil and water conservation in Northeast China. Bulletin of Soil and Water Conservation, 25(1):48-50. doi:10.13961/j.cnki.stbctb. 2005.01.013. (in Chinese)
[32]	Xin Shuzhi, Jiang Delin, 1982. Introduction to Soil and Water Conservation in China. Beijing:Agricultural Publishing House. (in Chinese)
[33]	Yan Yechao, Zhang Shuwen, Li Xiaoyan et al., 2005. Temporal and spatial variation of erosion gullies in Kebai black soil region of Heilongjiang during the past 50 years. Acta Geographica Sinica, 60(6):1015-1020. (in Chinese)
[34]	Yan Yechao, Zhang Shuwen, Yue Shuping, 2007. Classification of erosion gullies by remote sensing and spatial pattern analysis in black soil region of eastern Kebai. Scientia Geographica Sinica, 27(2):193-199. (in Chinese)
[35]	Zhang Shuwen, LI Fei, LI Tianqi et al., 2015. Remote sensing monitoring of gullies on a regional scale:a case study of Kebai region in Heilongjiang Province, China. Chinese Geographical Science, 25(5):602-611. doi: 10.1007/s11769-015-0780-z
[36]	Zhang Shuwen, Zhang Yangzhen, Li Ying et al., 2006. Spa-tio-temporal Characteristics of LUCC in Northeast China. Beijing:Sciences Press. (in Chinese)
[37]	Zhang Y G, Wu Y Q, Liu B Y et al., 2007. Characteristics and factors controlling the development of ephemeral gullies in cultivated catchments of black soil region, Northeast China. Soil & Tillage Research, 96(1-2):28-41. doi:10.1016/j.still. 2007.02.010
[38]	Zheng Du, 2008. The Study on Eco-geographical Systems in China. Beijing:The Commercial Press. (in Chinese)
[39]	Zheng Du, Zhou Chenghu, Shen Yuancun c et al., 2012. Diction-ary of Geographical Regionalization and Planning. Beijing:China Water & Power Press. (in Chinese)
[40]	Zhu Xianmo, 1965. The Map of Soil Erosion in China with Scale of 1:5 000 000. Beijing:Sciences Press. (in Chinese)
[41]	Zhu Xianmo, Chen Daizhong, Yang Qinke, 1999. The Revised Map of Soil Erosion in China with Scale of 1:5 000 000. Bei-jing:Sinomaps Press. (in Chinese)

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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Gully Erosion Regionalization of Black Soil Area in Northeastern China

1. Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun 130102, China;

2. College of Earth Science, Jilin University, Changchun 130069, China;

3. College of Environment and Planning, Henan University, Kaifeng 475000, China;

4. Songliao River Basin Water Conservancy Committee, Ministry of Water Resources, Changchun 130021, China

Funds: Under the auspices of National Natural Science Foundation of China (No. 41301467, 41271416), Special Foundation of National Science and Technology Basic Work of China (No. 2013FY112800)

Corresponding author: ZHANG Shuwen.E-mail:zhangshuwen@iga.ac.cn

Received Date: 2016-01-05

Rev Recd Date: 2016-04-09

Publish Date: 2017-02-27

Key words:

Abstract: Gully erosion is the frequent and main form of soil erosion in the black soil area of the northeastern China, which is one of the most important commodity grain production bases in China. It is encroaching upon the fertile farmland there. Regionalization of gully erosion can reveal the spatial distribution and regularity of the development of gully erosion. Based on the eco-geographical regional background features of the black soil area, this study combined the regionalization with influencing factors of the development of gully erosion. GIS spatial analysis, geostatistical analysis, spatial statistics, reclassification, debris polygon processing and map algebra methods were employed. As a result, the black soil area was divided into 12 subregions. The field survey data on type, length, volume and other characteristics indicators of gully erosion were used to calibrate the results. Then the features of every subregion, such as where the gully erosion is, how serious it is, and why it happens and develops, were expounded. The result is not only an essential prerequisite for gully erosion surveys and monitoring, but also an important basis for gully erosion prevention.

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Reference (41)

[1]	Bai Jianhong, Hui Lijun, 2015. The preliminary investigation of gully development and harm in Black Soil Region of Northeast China. Soil and Water Conservation in China, 8:68-70. doi:10.14123/j.cnki.swcc.2015.0230. (in Chinese).
[2]	Conoscenti C, Angileri S, Cappadonia C et al., 2014. Gully erosion susceptibility assessment by means of GIS-based logistic regression:a case of Sicily (Italy). Geomorphology, 204(1):399-411. doi:10.1016/j.geomorph.2013.08.021
[3]	Dirk R, 2012. The ET₀ Calculator:Evapotranspiration from a Reference Surface. Roman:Food and Agriculture Organization of the United Nations Press.
[4]	Dotterweich M, Rodzik J, Wojciech Z et al., 2012. High resolution gully erosion and sedimentation processes and land use changes since the Bronze Age and future trajectories in the Kazimierz Dolny area (SE-Poland). Catena, 95:50-62. doi:10.1016/j.catena.2012.03.001
[5]	Dotterweich M, Stankoviansky M, Minár J et al., 2013. Human induced soil erosion and gully system development in the late Holocene and future perspectives on landscape evolution:The Myjava Hill Land, Slovakia. Geomorphology, 201(4):227-245. doi:10.1016/j.geomorph.2013.06.023
[6]	Fan Haoming, Cai Qiangguo, Chen Guang et al., 2005. Compara-tive study of the soil erosion and control in the three major black soil regions in the world. Journal of Natural Resources, 20(3):387-393. (in Chinese)
[7]	Fan Haoming, Gu Guanghe, Wang Yansong et al., 2013. Charac-teristics of eroded gully development and environment of black soil region in Northeast China. Soil and Water Conservation in China, 10(379):75-79. doi:10.101423/j.cnki. swcc.2013.10. 021. (in Chinese)
[8]	Fan Jianrong, Pan Qingbing, 2002. The harm and control measures of soil erosion in typical black soil region of Northeast China. Scientific and Technical Information of Soil and Water Conservation, 5:36-38. (in Chinese)
[9]	Guan Junwei, 1995. The Principle of Soil and Water Conservation. Beijing:China Forestry Publishing House. (in Chinese)
[10]	Huang Bingwei, 1955. The experience and lessons from region-alization of soil erosion in the middle valley of Yellow River. Chinese Science Bulletin, 12:15-21. (in Chinese)
[11]	Kakembo V, Xanga W W, Rowntree K, 2009. Topographic thresholds in gully development on the hillslopes of communal areas in Ngqushwa Local Municipality, Eastern Cape, South Africa. Geomorphology, 110(3-4):188-194. doi:10.1016/j. geomorph.2009.04. 006
[12]	Li Tianqi, 2012. A case study and module simulation of gully ero-sion in black soil region. PhD thesis. Changchun:Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences. (in Chinese)
[13]	Li T Q, Zhang S W, Wang W J, 2010. Study on static effect factors of gully assisted by RS and GIS in black soil region. Pro-ceedings of 2010 International Conference on Management Science and Engineering, 5:409-412.
[14]	Li Wei, Zhang Pingyu, Song Yuxiang, 2005. Analysis on land development and causes in Northeast China during Qing Dyn-asty. Scientia Geographica Sinica, 25(1):7-16. doi:10. 13249/j.cnki.sgs. 2005.01.002. (in Chinese)
[15]	Li X S, Wu B F, Zhang L, 2013. Dynamic monitoring of soil ero-sion for upper Stream of Miyun Reservoir in the last 30 years. Journal of Mountain Science, 10(5):801-811. doi:10.1007/s 11629-013-2559-y
[16]	Lucà F, Conforti M, Robustelli G, 2011. Comparison of GIS-based gullying susceptibility mapping using bivariate and multivariate statistics:northern Calabria, South Italy. Geo-morphology, 134(3-4):297-308. doi:10.1016/j.geomorph. 2011.07.006
[17]	Luffman I E, Nandi A, Spiegel T, 2015. Gully morphology, hillslope erosion, and precipitation characteristics in the Ap-palachian Valley and Ridge province, southeastern USA. Ca-tena, 133:221-232. doi:10.1016/j.catena.2015.05.015
[18]	Moore I D, Lewis A, Gallant J C, 1991. Terrain Attributes:Esti-mation Methods and Scale Effects. Chichester:Wiley.
[19]	Sanginés-Franco C, Luna-Vega I, Contreras-Medina R et al., 2015. Diversity, endemism and conservation of Ferns (Polypodiales) in the Mexican Mountain Component. Journal of Mountain Science, 12(4):891-904. doi:10.1007/s11629-014-3070-9
[20]	Saxton N E, Olley J M, Smith S et al., 2012. Gully erosion in sub-tropical south-east Queensland, Austrilia. Geomorphology, s173-174(9):80-87. doi:10.1016/j.geomorph.2012.05.030
[21]	Shruthi R B V, Kerle N, Jetten V, 2011. Object-based gully feature extraction using high spatial resolution imagery. Geo-morphology, 134(3-4):260-268. doi:10.1016/j.geomorph. 2011.07.003
[22]	Shruthi R B V, Kerle N, Jetten V et al., 2014. Object-based gully system prediction from medium resolution imagery using random forests. Geomorphology, 216:283-294. doi:10.1016/j. geomorph.2014.04.006
[23]	The Ministry of Water Resources of the People's Republic of China, 2006. Specifications for Compilation of Soil and Water Conservation Planning (SL335-2006). Beijing:China Water & Power Press. (in Chinese)
[24]	The Ministry of Water Resources of the People's Republic of China, 2007. Standards for Classification and Gradation of Soil Erosion (SL190-2007). Beijing:China Water & Power Press. (in Chinese)
[25]	The Ministry of Water Resources of the People's Republic of China, 2013. National Regionalization of Key Areas for Moni-toring and Defending of Soil Erosion and Key Controlling Ar-eas of Soil Erosion (SL188-2013). Beijing:China Water & Power Press. (in Chinese)
[26]	Superson J, Rodzik J, Reder J, 2014. Natural and human influence on loess gully catchment evolution:a case study from Lublin Upland, E Poland. Geomorphology, 212(6):28-40. doi:10.1016/j.geomorph.2013.09.011
[27]	Tang W J, Liu H H, Liu B Y, 2013. Effects of gully erosion and gully filling on soil degradation in the black soil region of Northeast China. Journal of Mountain Science, 10(5):913-922. doi:10.1007/s11629-013-2560-5
[28]	Wang Wenjuan, Zhang Shuwen, Deng Rongxin, 2011. Gully status and relationship with landscape pattern in black soil area of Northeast China. Transactions of the CSAE, 27(10):192-198. doi:10.3969/j.issn.1002-6819.2011.10.034. (in Chinese)
[29]	Wang Wenjuan, Zhang Shuwen, Li Ying et al., 2009. Dynamics and effect factors of gully in the black soil area of Northeast during the past 40 years. Journal of Soil and Water Conserva-tion, 23(5):51-55. (in Chinese)
[30]	Wang Yuxi, Xie Yunjie, Wang Ping, 2002. Analysis on the causes of soil erosion in black soil region of Northeast China. Scientific and Technical Information of Soil and Water Conservation, 3:27-29. (in Chinese)
[31]	Xie Yunjie, Wang Yansong, Wang Yuxi, 2005. Defining of cher-nozem area and zoning of soil and water conservation in Northeast China. Bulletin of Soil and Water Conservation, 25(1):48-50. doi:10.13961/j.cnki.stbctb. 2005.01.013. (in Chinese)
[32]	Xin Shuzhi, Jiang Delin, 1982. Introduction to Soil and Water Conservation in China. Beijing:Agricultural Publishing House. (in Chinese)
[33]	Yan Yechao, Zhang Shuwen, Li Xiaoyan et al., 2005. Temporal and spatial variation of erosion gullies in Kebai black soil region of Heilongjiang during the past 50 years. Acta Geographica Sinica, 60(6):1015-1020. (in Chinese)
[34]	Yan Yechao, Zhang Shuwen, Yue Shuping, 2007. Classification of erosion gullies by remote sensing and spatial pattern analysis in black soil region of eastern Kebai. Scientia Geographica Sinica, 27(2):193-199. (in Chinese)
[35]	Zhang Shuwen, LI Fei, LI Tianqi et al., 2015. Remote sensing monitoring of gullies on a regional scale:a case study of Kebai region in Heilongjiang Province, China. Chinese Geographical Science, 25(5):602-611. doi:10.1007/s11769-015-0780-z
[36]	Zhang Shuwen, Zhang Yangzhen, Li Ying et al., 2006. Spa-tio-temporal Characteristics of LUCC in Northeast China. Beijing:Sciences Press. (in Chinese)
[37]	Zhang Y G, Wu Y Q, Liu B Y et al., 2007. Characteristics and factors controlling the development of ephemeral gullies in cultivated catchments of black soil region, Northeast China. Soil & Tillage Research, 96(1-2):28-41. doi:10.1016/j.still. 2007.02.010
[38]	Zheng Du, 2008. The Study on Eco-geographical Systems in China. Beijing:The Commercial Press. (in Chinese)
[39]	Zheng Du, Zhou Chenghu, Shen Yuancun c et al., 2012. Diction-ary of Geographical Regionalization and Planning. Beijing:China Water & Power Press. (in Chinese)
[40]	Zhu Xianmo, 1965. The Map of Soil Erosion in China with Scale of 1:5 000 000. Beijing:Sciences Press. (in Chinese)
[41]	Zhu Xianmo, Chen Daizhong, Yang Qinke, 1999. The Revised Map of Soil Erosion in China with Scale of 1:5 000 000. Bei-jing:Sinomaps Press. (in Chinese)

Gully Erosion Regionalization of Black Soil Area in Northeastern China

doi: 10.1007/s11769-017-0848-z

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References

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通讯作者: 陈斌, bchen63@163.com

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