Evaluación y cartografía de la erosión hídrica en la Argentina Evaluation and mapping of water erosion in Argentina. Environ Earth Sci 65:421–428Ĭasas R, Godagnone R, de la Fuente J (2022). Study case: the drainage basin of El Pescado Creek (Buenos Aires province, Argentina). Ĭarol E, Kruse E, Laurencena P, Rojo A, Deluchi M (2012) Ionic exchange in groundwater hydrochemical evolution. īorrelli P, Ballabio C, Yang J, Robinson D, Panagos P (2022) GloSEM: high-resolution global estimates of present and future soil displacement in croplands by water erosion. īorrelli P, Robinson DA, Panagos P, Lugato E, Yang JE, Alewell C, Wuepper D, Montanarella L, Ballabio C (2020) Land use and climate change impacts on global soil erosion by water (2015–2070). Geol Soc Lond Mem 58(1):241–255īorrelli P, Robinson D, Fleischer L, Lugato E, Ballabio C, Alewell C, Meusburger K, Modugno S, Schütt B, Ferro V, Bagarello V, Van Oost K, Montanarella L, Panagos P (2013) An assessment of the global impact of 21st century land use change on soil erosion. īoardman J, Poesen J, Evans M (2022) Slopes: soil erosion. īoardman J (2006) Soil erosion science: reflections on the limitations of current approaches. Rev Fac Agron La Plata 110(2):82–90īeyene SD, Youssef AB (2023) In-depth analysis of the effect of decomposed growth on the environment: a global perspective. (Evaluation of rainfall’s agressiveness in the watershed of El Pescado’s Creek, province of Buenos Aires (Argentina)). īesteiro S, Delgado MI (2011) Evaluación de la agresividad de las precipitaciones en la cuenca del Arroyo El Pescado, provincia de Buenos Aires (Argentina). īesteiro S, Gaspari F (2012) Modelization of the sediments emission in awatershed with forestations of Northeast Pampean. īatista P, Davies J, Silva M, Quinton J (2019) On the evaluation of soil erosion models: are we doing enough? Earth Sci Rev 197:102898. ![]() Īllen A (2003) Environmental planning and management of the Peri-urban interface: perspectives on an emerging field. Īliaga VS, Piccolo MC, Perillo GME (2021) Surface water extent dynamics from three periods of continuous Landsat time series subregional differences across Argentine plains. Īli SA, Hagos H (2016) Estimation of soil erosion using USLE and GIS in Awassa catchment, rift valley, Central Ethiopia. Graphical abstractĪlewell C, Borrelli P, Meusburger K, Panagos P (2019) Using the USLE: chances, challenges and limitations of soil erosion modelling. In order to contribute to the sustainability of the watershed as a system, we believe that territorial planning must be immediately included in the agenda of local policy makers, mostly regulating the transition towards agriculture and urbanized areas, which might be changing the patterns of natural landscape. We estimated an increase in soil loss from the past scenario (1985) -mean of 0.85 Mg ha −1 y −1 to the current one -mean of 1.52 Mg ha −1 y −1, with a trend that seems to continue towards the future scenario (2050) -mean of 3.07 Mg ha −1 y −1, this future scenario was established according to local land-use estimations and global projections. The land-use change process involves a substitution from grassland to urbanization, but in a large scale from grassland to horticulture and also to greenhouse horticulture in some specific areas. This lack of earlier information, and the fact that this watershed is undergoing an intense land-use change process, brings the novelty to this research. This research could be a useful contribution for policy makers in the design of future management strategies, especially considering the limited existence of previous studies regarding soil loss in the area. The aim of this work was to determine the current soil loss in the flatland watershed of El Pescado Creek, in the Pampean region of Argentina, and to compare it with past and future scenarios. Due to the relevance of soil characteristics for most productive activities, modelling soil erosion is essential for studies that pursue territorial planning. It is based on five factors, including rainfall, topography, soil, land-use and conservation practices. Among the models available to assess water erosion, the Universal Soil Loss Equation (USLE) is one of the most widely used.
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