Linking the present and future scenarios of soil erosion modeling in Tejo International Nature Park, Portugal

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Duarte, A.C.
Quinta-Nova, L.C.
Monteiro, M.C.H.

DUARTE, A.C., QUINTA-NOVA, L.C., MONTEIRO, M.C. (2022) - Linking the present and future scenarios of soil erosion modeling in Tejo International Nature Park, Portugal. In Mediterranean Geosciencies Annual Meeting (MedGU), 2. Marrakech, 27-30 November.

Linking the present and future scenarios of soil erosion modeling in Tejo International Nature Park, Portugal

Climate change
Land cover change
Protected area
Soil erosion

This work was supported with Portuguese national funds by FCT - Foundation for Science and Technology, I.P., within the following projects: CERNAS-IPCB - Project UIDB/00681/2020 and GEOBIOTEC - Project UIDB/04035/2020

2022-11-30T12:06:19Z
2022-11-30T12:06:19Z
2022

Soil erosion by water is considered as one of the processes leading to land degradation, affecting soil fertility, and consequently the loss of production capacity. According to recent studies, the projected increase of soil loss rate in the next few decades in European Union agricultural areas, is about 22.5%. In Portugal, as well as other countries in the Mediterranean basin, under a climate pattern unfavorable to maintaining an effective soil cover, and many times with rainfall peak events, is expectable the increase of soil erosion rates in climate change scenarios. The main goal of this study is to evaluate the present and project the future rate of soil in Tejo International Nature Park, located in the central-eastern part of Portugal and the surrounding area, where agricultural use and livestock grazing are dominant. The soil loss calculation was performed for the present situation and projected for 2070, considering two Representative Concentration Pathways (RCP 4.5 and RCP 8.5). We used the Revised Universal Soil Loss Equation (RUSLE) methodology to model the water soil erosion. For future scenarios, the change in rainfall patterns and the land cover modification were considered based on a set of drivers using the Patch-generating Land Use Simulation (PLUS). The future land cover patterns resulting from the PLUS model didn´t show significant changes for the studied period. The projected total annual rainfall will decrease for both RCP, however, the erosivity index increased in both future scenarios. Our findings provide insights into how future scenarios of socioeconomic development will affect soil erosion by water. Improving knowledge of the future rates of soil erosion is important for designing policy instruments to mitigate the future impact of climate change on water erosion. The results of this study provide insights into how future scenarios of socioeconomic development, and change in rainfall patterns, will can affect soil erosion by water. Understanding better the soil erosion process, by using modeling tools and others, it´s very important for designing policy instruments to prevent the future impact of climate change on soil erosion.
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