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How does agricultural management modify ecosystem services in the argentine Pampas? : the effects on soil C dynamics

Por: Caride, C.
Colaborador(es): Piñeiro, G | Paruelo, J. M.
ISSN: 0167-8809.Tipo de material: Artículos y capítulos. Recurso electrónico.Tema(s): APAR | CARBON | GRASSLANDS | MODIS | MONTEITH MODEL | SOC | AGRICULTURAL MANAGEMENT | AGRICULTURAL PRACTICE | CARBON FLUX | CONSERVATION TILLAGE | CROP PRODUCTION | ECOSYSTEM FUNCTION | ECOSYSTEM SERVICE | GRASSLAND | ORGANIC SOIL | PHOTOSYNTHETICALLY ACTIVE RADIATION | RANGELAND | REMOTE SENSING | SATELLITE DATA | SOIL CARBON | SOYBEAN | TEMPERATE ENVIRONMENT | WHEAT | ZERO TILLAGE | ARGENTINA | PAMPAS | GLYCINE MAX | TRITICUM AESTIVUM | Recursos en línea: Haga clic para acceso en línea | LINK AL EDITOR. En: Agriculture, Ecosystems and Environment Vol. 154 (2012) 23-33Resumen: Crop management modifies the structure and functioning of the ecosystems. C dynamics has been identified as a key intermediate or support ecosystem service that is profoundly altered by agricultural practices. The temperate grasslands of Argentina, the Pampas, are one of the main crop production regions of the world. Crop sequence, tillage and fertilization change inputs and outputs and, consequently the whole C dynamics. Our objectives in this article were [i] to provide a spatially explicit characterization, based on remotely sensed data, of crop sequences and tillage systems in the Rolling Pampas, [ii] to evaluate changes in C gains by computing the absorbed photosynthetic active radiation [APAR] from NDVI data of different crop, [iii] to evaluate the soil organic carbon [SOC] balance of different management schemes [crop sequence, conventional tillage vs. no till and three levels of nitrogen fertilization] using the CENTURY model, and [iv] to estimate the changes in SOC at a regional level. The results showed that 54 percent of the area was under continuous agriculture, with only two crop rotations occupying 61 percent of the area, and the main tillage system was no-tillage [73 percent of the area analyzed]. Annual APAR was lower in crops than in rangelands, except for wheat-soybean double crop. Based on CENTURY simulations the crop management which had a most negative SOC balance [SOC reference value [100 percent]=79tha -1] was crop sequence "maize/soybean" under conventional tillage and with no fertilizer application [37 percent losses of SOC in 60 years]. The management that presented the most positive SOC balance was "soybean/wheat-soybean double crop [6 years] pasture [4 years]" under no till and with high fertilization [10 percent increase of SOC in 60 years]. A positive and linear relationship was found between APAR estimates derived from satellite data and simulated SOC providing basis for a quantitative hypothesis on the importance of C inputs on SOC's dynamics. At regional scale, if crop sequences proportions remain constant, the lost of SOC would average a 15 percent in 60 years.
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Crop management modifies the structure and functioning of the ecosystems. C dynamics has been identified as a key intermediate or support ecosystem service that is profoundly altered by agricultural practices. The temperate grasslands of Argentina, the Pampas, are one of the main crop production regions of the world. Crop sequence, tillage and fertilization change inputs and outputs and, consequently the whole C dynamics. Our objectives in this article were [i] to provide a spatially explicit characterization, based on remotely sensed data, of crop sequences and tillage systems in the Rolling Pampas, [ii] to evaluate changes in C gains by computing the absorbed photosynthetic active radiation [APAR] from NDVI data of different crop, [iii] to evaluate the soil organic carbon [SOC] balance of different management schemes [crop sequence, conventional tillage vs. no till and three levels of nitrogen fertilization] using the CENTURY model, and [iv] to estimate the changes in SOC at a regional level. The results showed that 54 percent of the area was under continuous agriculture, with only two crop rotations occupying 61 percent of the area, and the main tillage system was no-tillage [73 percent of the area analyzed]. Annual APAR was lower in crops than in rangelands, except for wheat-soybean double crop. Based on CENTURY simulations the crop management which had a most negative SOC balance [SOC reference value [100 percent]=79tha -1] was crop sequence "maize/soybean" under conventional tillage and with no fertilizer application [37 percent losses of SOC in 60 years]. The management that presented the most positive SOC balance was "soybean/wheat-soybean double crop [6 years] pasture [4 years]" under no till and with high fertilization [10 percent increase of SOC in 60 years]. A positive and linear relationship was found between APAR estimates derived from satellite data and simulated SOC providing basis for a quantitative hypothesis on the importance of C inputs on SOC's dynamics. At regional scale, if crop sequences proportions remain constant, the lost of SOC would average a 15 percent in 60 years.

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