2024-03-29T08:50:40Zhttp://digital.csic.es/dspace-oai/requestoai:digital.csic.es:10261/1101512020-06-02T09:19:05Zcom_10261_75com_10261_6col_10261_328
2015-02-03T12:49:26Z
urn:hdl:10261/110151
Rainfall erosivity in Europe
Panagos, Panos
Ballabio, Cristiano
Borrelli, Pasquale
Meusburger, Katrin
Klik, Andreas
Rousseva, Svetla
Perčec Tadić, Melita
Michaelides, Silas
Hrabalíková, Michaela
Olsen, Preben
Aalto, Juha
Lakatos, Mónika
Rymszewicz, Anna
Dumitrescu, Alexandru
Beguería, Santiago
Alewell, Christine
RUSLE
R-factor
Rainstorm
Rainfall intensity
Modelling
Erosivity density
Precipitation
Soil erosion
43 Pags.- 4 Tabls.- 5 Figs. The definitive version is available at: http://www.sciencedirect.com/science/journal/00489697
Rainfall is one the main drivers of soil erosion. The erosive force of rainfall is expressed as rainfall erosivity. Rainfall erosivity considers the rainfall amount and intensity, and is most commonly expressed as the R-factor in the USLE model and its revised version, RUSLE. At national and continental levels, the scarce availability of data obliges soil erosion modellers to estimate this factor based on rainfall data with only low temporal resolution (daily, monthly, annual averages). The purpose of this study is to assess rainfall erosivity in Europe in the form of the RUSLE R-factor, based on the best available datasets. Data have been collected from 1541 precipitation stations in all European Union (EU) Member States and Switzerland, with temporal resolutions of 5 to 60 min. The R-factor values calculated from precipitation data of different temporal resolutions were normalised to R-factor values with temporal resolutions of 30 min using linear regression functions. Precipitation time series ranged from a minimum of 5 years to a maximum of 40 years. The average time series per precipitation station is around 17.1 years, the most datasets including the first decade of the 21st century. Gaussian Process Regression (GPR) has been used to interpolate the R-factor station values to a European rainfall erosivity map at 1 km resolution. The covariates used for the R-factor interpolation were climatic data (total precipitation, seasonal precipitation, precipitation of driest/wettest months, average temperature), elevation and latitude/longitude. The mean R-factor for the EU plus Switzerland is 722 MJ mm ha− 1 h− 1 yr− 1, with the highest values (> 1000 MJ mm ha− 1 h− 1 yr− 1) in the Mediterranean and alpine regions and the lowest (< 500 MJ mm ha− 1 h− 1 yr− 1) in the Nordic countries. The erosivity density (erosivity normalised to annual precipitation amounts) was also the highest in Mediterranean regions which implies high risk for erosive events and floods.
2015-02-03T12:49:26Z
2015-02-03T12:49:26Z
2015-04
artículo
Panagos P, Ballabio C, Borrelli P, Meusburger K, Klik A, Rousseva S, Perčec Tadić M, Michaelides S, Hrabalíková M, Olsen P, Aalto J, Lakatos M, Rymszewicz A, Dumitrescu A, Beguería S, Alewell C. Rainfall erosivity in Europe. Science of The Total Environment 511: 801–814 (2015)
0048-9697
http://hdl.handle.net/10261/110151
10.1016/j.scitotenv.2015.01.008
eng
Postprint
http://dx.doi.org/10.1016/j.scitotenv.2015.01.008
Sí
http://creativecommons.org/licenses/by-nc-nd/4.0/
openAccess
Elsevier