Climate change can lead to significant environmental and societal impacts; for example, through increases in the amount and intensity of rainfall with the associated possibility of flooding. Twenty-first-century climate change simulations for Great Britain reveal an increase in heavy precipitation that may lead to widespread soil loss by rising the likelihood of surface runoff. Here, hourly high-resolution rainfall projections from a 1.5 km ('convection-permitting') regional climate model are used to simulate the soil erosion response for two periods of the century (1996-2009 and a 13-year future period at similar to 2100) in the "Rother" catchment, West Sussex, England. Modeling soil erosion with EROSION 3D, we found a general increase in sediment production (off-site erosion) for the end of the century of about 43.2%, with a catchment-average increase from 0.176 to 0.252 t ha(-1) y(-1) and large differences between areas with diverse land use. These results highlight the effectiveness of using high-resolution rainfall projections to better account for spatial variability in the assessment of long-term soil erosion than other current methods.

Soil erosion in a British watershed under climate change as predicted using convection-permitting regional climate projections / Ciampalini R.; Kendon E.J.; Constantine J.A.; Schindewolf M.; Hall I.R.. - In: GEOSCIENCES. - ISSN 2076-3263. - ELETTRONICO. - 13(9):(2023), pp. 1-17. [10.3390/geosciences13090261]

Soil erosion in a British watershed under climate change as predicted using convection-permitting regional climate projections

Ciampalini R.
;
2023

Abstract

Climate change can lead to significant environmental and societal impacts; for example, through increases in the amount and intensity of rainfall with the associated possibility of flooding. Twenty-first-century climate change simulations for Great Britain reveal an increase in heavy precipitation that may lead to widespread soil loss by rising the likelihood of surface runoff. Here, hourly high-resolution rainfall projections from a 1.5 km ('convection-permitting') regional climate model are used to simulate the soil erosion response for two periods of the century (1996-2009 and a 13-year future period at similar to 2100) in the "Rother" catchment, West Sussex, England. Modeling soil erosion with EROSION 3D, we found a general increase in sediment production (off-site erosion) for the end of the century of about 43.2%, with a catchment-average increase from 0.176 to 0.252 t ha(-1) y(-1) and large differences between areas with diverse land use. These results highlight the effectiveness of using high-resolution rainfall projections to better account for spatial variability in the assessment of long-term soil erosion than other current methods.
2023
13(9)
1
17
Ciampalini R.; Kendon E.J.; Constantine J.A.; Schindewolf M.; Hall I.R.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1344211
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