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Modelling soil erosion risk of a tropical plateau basin to identify priority areas for conservation
by
Biswas, Roy Malabika
, Roy, Pankaj Kumar
, Halder Sudipa
in
Agricultural practices
/ Algorithms
/ Analytic hierarchy process
/ Anthropogenic factors
/ Conservation areas
/ Deforestation
/ Distance
/ Drainage density
/ Fuzzy logic
/ Geographic information systems
/ Geographical information systems
/ Geomorphology
/ Geomorphology of rivers
/ Hydrometeorology
/ Information systems
/ Land cover
/ Land management
/ Land use
/ Land use management
/ Model accuracy
/ Plateaus
/ Rain
/ Rainfall
/ Remote sensing
/ River basins
/ Rivers
/ Runoff
/ Soil classification
/ Soil conservation
/ Soil erosion
/ Soil loss
/ Soil properties
/ Soil texture
/ Texture
/ Tropical climate
/ Watersheds
/ Wetness index
2021
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Modelling soil erosion risk of a tropical plateau basin to identify priority areas for conservation
by
Biswas, Roy Malabika
, Roy, Pankaj Kumar
, Halder Sudipa
in
Agricultural practices
/ Algorithms
/ Analytic hierarchy process
/ Anthropogenic factors
/ Conservation areas
/ Deforestation
/ Distance
/ Drainage density
/ Fuzzy logic
/ Geographic information systems
/ Geographical information systems
/ Geomorphology
/ Geomorphology of rivers
/ Hydrometeorology
/ Information systems
/ Land cover
/ Land management
/ Land use
/ Land use management
/ Model accuracy
/ Plateaus
/ Rain
/ Rainfall
/ Remote sensing
/ River basins
/ Rivers
/ Runoff
/ Soil classification
/ Soil conservation
/ Soil erosion
/ Soil loss
/ Soil properties
/ Soil texture
/ Texture
/ Tropical climate
/ Watersheds
/ Wetness index
2021
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Do you wish to request the book?
Modelling soil erosion risk of a tropical plateau basin to identify priority areas for conservation
by
Biswas, Roy Malabika
, Roy, Pankaj Kumar
, Halder Sudipa
in
Agricultural practices
/ Algorithms
/ Analytic hierarchy process
/ Anthropogenic factors
/ Conservation areas
/ Deforestation
/ Distance
/ Drainage density
/ Fuzzy logic
/ Geographic information systems
/ Geographical information systems
/ Geomorphology
/ Geomorphology of rivers
/ Hydrometeorology
/ Information systems
/ Land cover
/ Land management
/ Land use
/ Land use management
/ Model accuracy
/ Plateaus
/ Rain
/ Rainfall
/ Remote sensing
/ River basins
/ Rivers
/ Runoff
/ Soil classification
/ Soil conservation
/ Soil erosion
/ Soil loss
/ Soil properties
/ Soil texture
/ Texture
/ Tropical climate
/ Watersheds
/ Wetness index
2021
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Modelling soil erosion risk of a tropical plateau basin to identify priority areas for conservation
Journal Article
Modelling soil erosion risk of a tropical plateau basin to identify priority areas for conservation
2021
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Overview
Soil erosion induced by physical and anthropogenic activities needs serious concern to deal with. In recent days, watersheds have been facing acute soil loss because of deforestation, poor land use management and unscientific agricultural practices. The present paper highlights the goal to decipher soil erosion-susceptible zones in a rain-fed river basin of India having a complex topography comprising the extension of Chotonagpur plateau and parts of Bengal basin. Fuzzy logic algorithm-based analytical hierarchy process (FAHP) with remote sensing and geographical information system (GIS) were used to execute the objective. The soil erosion-susceptible zone (SESZ) was identified assimilating the 14 geo-environmental, hydro-meteorological and anthropogenic conditioning factors such as slope, drainage density, relative relief, stream power index, topographic wetness index, runoff, soil texture, land use and land cover, rainfall erosivity factor, distance from road, distance from settlement, distance from river, geomorphology and soil bareness index based on which sub-basin prioritization for sustainable soil conservation was made. The soil erosion-susceptible zone was classified into five classes, namely very low soil erosion zone (13.20%), low soil erosion zone (25.75%), moderate soil erosion zone (27.62%), high soil erosion zone (21.90%) and very high soil erosion zone (11.53%). Receiver operating characteristics (ROC) curve was generated where area under the curve (AUC) came as 0.82 and a correspondence analysis between the SESZ and the first three ranked factors was also made which together proves the accuracy of the model.
Publisher
Springer Nature B.V
Subject
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