Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion
Cropland area in Uruguay, mostly soybeans, increased 300% during the last decade due to expansion to new areas. Although no-tillage practices are generalized among farmers, soil erosion is still a major environmental and economic issue. A predictive tool as the Water Erosion Prediction Model Project (WEPP), based on soil processes, has never been used in Uruguay. The objective of this research was to evaluate the soil erosion impact of various managements of intensive agriculture on Mollisols of Uruguay, applying the WEPP erosion model. The model was first adjusted and validated for annual erosion estimates of an Abruptic Argiudoll (Nash Sutcliffe (NS)= 0.81 and R2 = 0.89) and a Vertic Argiudoll (NS= 0.86 and R2= 0.90), and later applied to evaluate three Mollisols and one Vertisol with different soil managements. Treatments combined no tillage (NT) and reduced tillage (RT) with different crop rotations. Crop rotations were: continuous soybean (CS), soybean-wheat (SW), soybean-winter cover crop (S-Cover crop), cornsoybean- wheat-3/4 yr pasture (CSW-PPP/PPPP), and corn-soybean-wheat-soybean-wheat-3/4 yr pasture (CSWSWPPP/ PPPP). Soil erosion under RT system or CS was always above 7Mg.ha-1 (T value). Pastures inclusion under NT showed values below 7 Mg.ha-1.WEPP simulated an average erosion rate below T for SW rotation with NT (100m; 3% slope) in three of the four soils studied. However, by varying the slope and the length of the hillslope, the range for which the average annual erosion remains below this level is limited (only 3% - 4%). Moreover, for those hillslopes whose average annual erosion does not exceed the T value, there is still approximately a 25% probability that this may occur any given year. Our work highlights the potential of using WEPP in the development of criteria for assessing sustainability of soil management, alternative to T value of average annual erosion units, including risk analysis.
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Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA)
2012
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oai:oai.agrocienciauruguay.uy:article-6822021-04-08T22:59:34Z Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion Jorge, Gabriella Pérez Bidegain, Mario Terra, José Sawchik, Jorge Cropland area in Uruguay, mostly soybeans, increased 300% during the last decade due to expansion to new areas. Although no-tillage practices are generalized among farmers, soil erosion is still a major environmental and economic issue. A predictive tool as the Water Erosion Prediction Model Project (WEPP), based on soil processes, has never been used in Uruguay. The objective of this research was to evaluate the soil erosion impact of various managements of intensive agriculture on Mollisols of Uruguay, applying the WEPP erosion model. The model was first adjusted and validated for annual erosion estimates of an Abruptic Argiudoll (Nash Sutcliffe (NS)= 0.81 and R2 = 0.89) and a Vertic Argiudoll (NS= 0.86 and R2= 0.90), and later applied to evaluate three Mollisols and one Vertisol with different soil managements. Treatments combined no tillage (NT) and reduced tillage (RT) with different crop rotations. Crop rotations were: continuous soybean (CS), soybean-wheat (SW), soybean-winter cover crop (S-Cover crop), cornsoybean- wheat-3/4 yr pasture (CSW-PPP/PPPP), and corn-soybean-wheat-soybean-wheat-3/4 yr pasture (CSWSWPPP/ PPPP). Soil erosion under RT system or CS was always above 7Mg.ha-1 (T value). Pastures inclusion under NT showed values below 7 Mg.ha-1.WEPP simulated an average erosion rate below T for SW rotation with NT (100m; 3% slope) in three of the four soils studied. However, by varying the slope and the length of the hillslope, the range for which the average annual erosion remains below this level is limited (only 3% - 4%). Moreover, for those hillslopes whose average annual erosion does not exceed the T value, there is still approximately a 25% probability that this may occur any given year. Our work highlights the potential of using WEPP in the development of criteria for assessing sustainability of soil management, alternative to T value of average annual erosion units, including risk analysis. Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA) 2012-12-01 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion application/pdf https://agrocienciauruguay.uy/index.php/agrociencia/article/view/682 10.31285/AGRO.16.682 Agrociencia Uruguay; Vol. 16 No. 3 (2012); 268- 273 Agrociencia Uruguay; Vol. 16 Núm. 3 (2012); 268- 273 Agrociencia Uruguay; v. 16 n. 3 (2012); 268- 273 2730-5066 eng https://agrocienciauruguay.uy/index.php/agrociencia/article/view/682/711 Copyright (c) 2012 Agrociencia Uruguay |
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Biblioteca de la Facultad de Agronomía de la UDELAR de UY |
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| author |
Jorge, Gabriella Pérez Bidegain, Mario Terra, José Sawchik, Jorge |
| spellingShingle |
Jorge, Gabriella Pérez Bidegain, Mario Terra, José Sawchik, Jorge Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion |
| author_facet |
Jorge, Gabriella Pérez Bidegain, Mario Terra, José Sawchik, Jorge |
| author_sort |
Jorge, Gabriella |
| title |
Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion |
| title_short |
Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion |
| title_full |
Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion |
| title_fullStr |
Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion |
| title_full_unstemmed |
Wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion |
| title_sort |
wepp as a tool for enabling a more comprehensive analysis of the environmental impacts of soil erosion |
| description |
Cropland area in Uruguay, mostly soybeans, increased 300% during the last decade due to expansion to new areas. Although no-tillage practices are generalized among farmers, soil erosion is still a major environmental and economic issue. A predictive tool as the Water Erosion Prediction Model Project (WEPP), based on soil processes, has never been used in Uruguay. The objective of this research was to evaluate the soil erosion impact of various managements of intensive agriculture on Mollisols of Uruguay, applying the WEPP erosion model. The model was first adjusted and validated for annual erosion estimates of an Abruptic Argiudoll (Nash Sutcliffe (NS)= 0.81 and R2 = 0.89) and a Vertic Argiudoll (NS= 0.86 and R2= 0.90), and later applied to evaluate three Mollisols and one Vertisol with different soil managements. Treatments combined no tillage (NT) and reduced tillage (RT) with different crop rotations. Crop rotations were: continuous soybean (CS), soybean-wheat (SW), soybean-winter cover crop (S-Cover crop), cornsoybean- wheat-3/4 yr pasture (CSW-PPP/PPPP), and corn-soybean-wheat-soybean-wheat-3/4 yr pasture (CSWSWPPP/ PPPP). Soil erosion under RT system or CS was always above 7Mg.ha-1 (T value). Pastures inclusion under NT showed values below 7 Mg.ha-1.WEPP simulated an average erosion rate below T for SW rotation with NT (100m; 3% slope) in three of the four soils studied. However, by varying the slope and the length of the hillslope, the range for which the average annual erosion remains below this level is limited (only 3% - 4%). Moreover, for those hillslopes whose average annual erosion does not exceed the T value, there is still approximately a 25% probability that this may occur any given year. Our work highlights the potential of using WEPP in the development of criteria for assessing sustainability of soil management, alternative to T value of average annual erosion units, including risk analysis. |
| publisher |
Coeditada entre Facultad de Agronomía - Udelar y el Instituto Nacional de Investigación Agropecuaria (INIA) |
| publishDate |
2012 |
| url |
https://agrocienciauruguay.uy/index.php/agrociencia/article/view/682 |
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AT jorgegabriella weppasatoolforenablingamorecomprehensiveanalysisoftheenvironmentalimpactsofsoilerosion AT perezbidegainmario weppasatoolforenablingamorecomprehensiveanalysisoftheenvironmentalimpactsofsoilerosion AT terrajose weppasatoolforenablingamorecomprehensiveanalysisoftheenvironmentalimpactsofsoilerosion AT sawchikjorge weppasatoolforenablingamorecomprehensiveanalysisoftheenvironmentalimpactsofsoilerosion |
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