Adaptation and application of the erosion potential method for tropical soils

The water erosion process has a considerable negative effect on tropical soils, causes soil losses from arable land and reduces the capacity to support surrounding ecosystems. Estimating soil losses caused by water erosion is fundamental for evaluating the impacts of various production systems. Ther...

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Published in:Ciência agronômica 2020, Vol.51 (1), p.1
Main Authors: Sakuno, Natanael Rodolfo Ribeiro, Guiçardi, Augusto Cesar Ferreira, Spalevic, Velibor, Avanzi, Junior Cesar, Silva, Marx Leandro Naves, Mincato, Ronaldo Luiz
Format: Article
Language:English
Subjects:
Adaptation
Agricultural land
Arable land
Environment models
Erosion mechanisms
Estimation
Geographic information systems
Information processing
Land use
Remote sensing
Soil erosion
Soil improvement
Soil water
Soils
Tropical environments
Tropical soils
Water erosion
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container_title Ciência agronômica
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creator Sakuno, Natanael Rodolfo Ribeiro
Guiçardi, Augusto Cesar Ferreira
Spalevic, Velibor
Avanzi, Junior Cesar
Silva, Marx Leandro Naves
Mincato, Ronaldo Luiz
description The water erosion process has a considerable negative effect on tropical soils, causes soil losses from arable land and reduces the capacity to support surrounding ecosystems. Estimating soil losses caused by water erosion is fundamental for evaluating the impacts of various production systems. Therefore, improving soil loss estimates via the adaptation of models for different edaphoclimatic environments is necessary for estimating local geographic and climatic differences. This study aimed to adapt, apply and evaluate the potentialities of the Potential Erosion Method for Latosols of the Hydrographic Subbasin of Caçús Stream, southern Minas Gerais State. Geological, topographic, pedological, climatic and land use and occupation data were processed via Geographic Information Systems and compared with those obtained by the Revised Universal Soil Loss Equation. The erosion intensity coefficient, Z, was 0.28, indicating weak erosion intensity, and the estimated average soil losses were 31 Mg ha-1 year-1 by the Potential Erosion Method and 36 Mg ha-1 year-1 by the Revised Universal Soil Loss Equation, which were both above the soil loss tolerance. The model results and comparisons indicated that the Potential Erosion Method has excellent performance and can be applied to estimate sediment production via water erosion in tropical soils.
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subjects Adaptation
Agricultural land
Arable land
Environment models
Erosion mechanisms
Estimation
Geographic information systems
Information processing
Land use
Remote sensing
Soil erosion
Soil improvement
Soil water
Soils
Tropical environments
Tropical soils
Water erosion
title Adaptation and application of the erosion potential method for tropical soils
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