Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa
Cow-calf production is the main practice within marginal agricultural lands of the world, like the Flooding Pampa of Argentina, where it promotes the transformation of native tall-tussock grasslands Paspalum quadrifarium into native short-grass grasslands or sown pastures. The effect of these land use changes on water dynamics are not well understood, especially in regions subjected to marked interannual drought and flooding cycles. Here we measured soil properties (infiltration rate, bulk density and soil organic matter), rainfall interception by the canopy, and soil moisture during two years with different annual rainfall. Then, we parameterized a hydrological model (HYDRUS) for inferring consequences of soil water fluxes on water regulation. Infiltration rate was significantly higher in native tall-tussock grasslands than native short-grass grasslands and sown pastures, bulk density was significantly lower in native tall-tussock grasslands than native short-grass grasslands and sown pastures, and soil organic matter was significantly higher in native tall-tussock grasslands than sown pastures. Simulated water dynamics during years of low annual precipitation (summer rainfall deficit), show that transpiration and evaporation from native short-grass grasslands represented 59 % and 23 % of total water balance, whereas transpiration and evaporation from native tall-tussock grasslands represented 70 % and 12 %, respectively. This result reflects the high productive capacity of native tall-tussock grasslands under dry conditions. In contrast, under high annual precipitation (excess during fall and winter), transpiration and evaporation from native short-grass grasslands represented 48 % and 26 % of total water balance, whereas in native tall-tussock grasslands represented 35 % and 9 %, respectively. These results suggest a low capacity of native tall-tussock grasslands to evacuate water excess, especially during fall and winter. The observed differences in water fluxes between native tall-tussock grasslands and native short-grass grasslands are important to understand water dynamics under different climatic conditions and could be useful for adaptation to climate change through ecosystem-based management.
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Format: | info:ar-repo/semantics/artículo biblioteca |
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Elsevier
2023-10
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Subjects: | Pastizales, Materia Orgánica, Infiltración, Utilización de la Tierra, Pastures, Organic Matter, Infiltration, Land Use, |
Online Access: | http://hdl.handle.net/20.500.12123/16009 https://www.sciencedirect.com/science/article/pii/S0048969723039852 https://doi.org/10.1016/j.scitotenv.2023.165362 |
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Pastizales Materia Orgánica Infiltración Utilización de la Tierra Pastures Organic Matter Infiltration Land Use Pastizales Materia Orgánica Infiltración Utilización de la Tierra Pastures Organic Matter Infiltration Land Use |
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Pastizales Materia Orgánica Infiltración Utilización de la Tierra Pastures Organic Matter Infiltration Land Use Pastizales Materia Orgánica Infiltración Utilización de la Tierra Pastures Organic Matter Infiltration Land Use Sirimarco, Marina Ximena Villarino, Sebastian Barral, Maria Paula Puricelli, Marino Marcelo Laterra, Pedro Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa |
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Cow-calf production is the main practice within marginal agricultural lands of the world, like the Flooding Pampa of Argentina, where it promotes the transformation of native tall-tussock grasslands Paspalum quadrifarium into native short-grass grasslands or sown pastures. The effect of these land use changes on water dynamics are not well understood, especially in regions subjected to marked interannual drought and flooding cycles. Here we measured soil properties (infiltration rate, bulk density and soil organic matter), rainfall interception by the canopy, and soil moisture during two years with different annual rainfall. Then, we parameterized a hydrological model (HYDRUS) for inferring consequences of soil water fluxes on water regulation. Infiltration rate was significantly higher in native tall-tussock grasslands than native short-grass grasslands and sown pastures, bulk density was significantly lower in native tall-tussock grasslands than native short-grass grasslands and sown pastures, and soil organic matter was significantly higher in native tall-tussock grasslands than sown pastures. Simulated water dynamics during years of low annual precipitation (summer rainfall deficit), show that transpiration and evaporation from native short-grass grasslands represented 59 % and 23 % of total water balance, whereas transpiration and evaporation from native tall-tussock grasslands represented 70 % and 12 %, respectively. This result reflects the high productive capacity of native tall-tussock grasslands under dry conditions. In contrast, under high annual precipitation (excess during fall and winter), transpiration and evaporation from native short-grass grasslands represented 48 % and 26 % of total water balance, whereas in native tall-tussock grasslands represented 35 % and 9 %, respectively. These results suggest a low capacity of native tall-tussock grasslands to evacuate water excess, especially during fall and winter. The observed differences in water fluxes between native tall-tussock grasslands and native short-grass grasslands are important to understand water dynamics under different climatic conditions and could be useful for adaptation to climate change through ecosystem-based management. |
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Pastizales Materia Orgánica Infiltración Utilización de la Tierra Pastures Organic Matter Infiltration Land Use |
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Sirimarco, Marina Ximena Villarino, Sebastian Barral, Maria Paula Puricelli, Marino Marcelo Laterra, Pedro |
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Sirimarco, Marina Ximena Villarino, Sebastian Barral, Maria Paula Puricelli, Marino Marcelo Laterra, Pedro |
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Sirimarco, Marina Ximena |
title |
Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa |
title_short |
Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa |
title_full |
Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa |
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Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa |
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Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa |
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transformation of tall-tussock grasslands and soil water dynamics in the flooding pampa |
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Elsevier |
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2023-10 |
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http://hdl.handle.net/20.500.12123/16009 https://www.sciencedirect.com/science/article/pii/S0048969723039852 https://doi.org/10.1016/j.scitotenv.2023.165362 |
work_keys_str_mv |
AT sirimarcomarinaximena transformationoftalltussockgrasslandsandsoilwaterdynamicsinthefloodingpampa AT villarinosebastian transformationoftalltussockgrasslandsandsoilwaterdynamicsinthefloodingpampa AT barralmariapaula transformationoftalltussockgrasslandsandsoilwaterdynamicsinthefloodingpampa AT puricellimarinomarcelo transformationoftalltussockgrasslandsandsoilwaterdynamicsinthefloodingpampa AT laterrapedro transformationoftalltussockgrasslandsandsoilwaterdynamicsinthefloodingpampa |
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oai:localhost:20.500.12123-160092023-11-27T10:20:43Z Transformation of tall-tussock grasslands and soil water dynamics in the Flooding Pampa Sirimarco, Marina Ximena Villarino, Sebastian Barral, Maria Paula Puricelli, Marino Marcelo Laterra, Pedro Pastizales Materia Orgánica Infiltración Utilización de la Tierra Pastures Organic Matter Infiltration Land Use Cow-calf production is the main practice within marginal agricultural lands of the world, like the Flooding Pampa of Argentina, where it promotes the transformation of native tall-tussock grasslands Paspalum quadrifarium into native short-grass grasslands or sown pastures. The effect of these land use changes on water dynamics are not well understood, especially in regions subjected to marked interannual drought and flooding cycles. Here we measured soil properties (infiltration rate, bulk density and soil organic matter), rainfall interception by the canopy, and soil moisture during two years with different annual rainfall. Then, we parameterized a hydrological model (HYDRUS) for inferring consequences of soil water fluxes on water regulation. Infiltration rate was significantly higher in native tall-tussock grasslands than native short-grass grasslands and sown pastures, bulk density was significantly lower in native tall-tussock grasslands than native short-grass grasslands and sown pastures, and soil organic matter was significantly higher in native tall-tussock grasslands than sown pastures. Simulated water dynamics during years of low annual precipitation (summer rainfall deficit), show that transpiration and evaporation from native short-grass grasslands represented 59 % and 23 % of total water balance, whereas transpiration and evaporation from native tall-tussock grasslands represented 70 % and 12 %, respectively. This result reflects the high productive capacity of native tall-tussock grasslands under dry conditions. In contrast, under high annual precipitation (excess during fall and winter), transpiration and evaporation from native short-grass grasslands represented 48 % and 26 % of total water balance, whereas in native tall-tussock grasslands represented 35 % and 9 %, respectively. These results suggest a low capacity of native tall-tussock grasslands to evacuate water excess, especially during fall and winter. The observed differences in water fluxes between native tall-tussock grasslands and native short-grass grasslands are important to understand water dynamics under different climatic conditions and could be useful for adaptation to climate change through ecosystem-based management. EEA Balcarce Fil: Sirimarco, Ximena. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Balcarce; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Instituto de Innovación para la Producción Agropecuaria y el Desarrollo Sostenible; Argentina. Fil: Villarino, Sebastián. Universidad Nacional de Mar del Plata. Facultad de Ciencias Agrarias; Argentina. Fil: Villarino, Sebastián. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Fil: Barral, María Paula. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Balcarce; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Instituto de Innovación para la Producción Agropecuaria y el Desarrollo Sostenible; Argentina. Fil: Puricelli, Marino. Instituto Nacional de Tecnología Agropecuaria (INTA). Estación Experimental Agropecuaria Balcarce; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Instituto de Innovación para la Producción Agropecuaria y el Desarrollo Sostenible; Argentina. Fil: Laterra, Pedro. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Fil: Laterra, Pedro. Fundación Bariloche; Argentina. 2023-11-27T10:13:51Z 2023-11-27T10:13:51Z 2023-10 info:ar-repo/semantics/artículo info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion http://hdl.handle.net/20.500.12123/16009 https://www.sciencedirect.com/science/article/pii/S0048969723039852 0309-1740 (Print) 1873-4138 (Online) https://doi.org/10.1016/j.scitotenv.2023.165362 eng info:eu-repo/semantics/restrictedAccess http://creativecommons.org/licenses/by-nc-sa/4.0/ Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) application/pdf Elsevier Science of The Total Environment 896 : 165362 (20 October 2023) |