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CATENA, 2016
Abstract The potential change in rainfall erosivity, the R-factor in the RUSLE model was investigated under three future climate change scenarios A1FI, A1B and B1 in the New River basin of East Tennessee. Data from Community Climate System Model (CCSM) global circulation model (GCM) was used for spatial–temporal statistical downscaling to the study ...
Siavash Hoomehr +2 more
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Abstract The potential change in rainfall erosivity, the R-factor in the RUSLE model was investigated under three future climate change scenarios A1FI, A1B and B1 in the New River basin of East Tennessee. Data from Community Climate System Model (CCSM) global circulation model (GCM) was used for spatial–temporal statistical downscaling to the study ...
Siavash Hoomehr +2 more
openaire +1 more source
World Environmental and Water Resources Congress 2011, 2011
The potential change in rainfall erosivity, RUSLE R-factor, in the southern Appalachian region, north of Knoxville in Tennessee, is investigated under three future climate change scenarios A1F1, A1B and B1. Data from CCSM global circulation model (GCM) is used for this investigation by spatial temporal statistical downscaling techniques.
Siavash Hoomehr +3 more
openaire +1 more source
The potential change in rainfall erosivity, RUSLE R-factor, in the southern Appalachian region, north of Knoxville in Tennessee, is investigated under three future climate change scenarios A1F1, A1B and B1. Data from CCSM global circulation model (GCM) is used for this investigation by spatial temporal statistical downscaling techniques.
Siavash Hoomehr +3 more
openaire +1 more source
CATENA, 2017
Abstract Characterization of simulated rainfall at macro- and micro-structural levels represents a major research task in order to realistically extrapolate laboratory results to the field scale. Different rainfall simulation systems produce different erosivity relationships. However, Meshesha et al.
Mohamed A.M. Abd Elbasit +2 more
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Abstract Characterization of simulated rainfall at macro- and micro-structural levels represents a major research task in order to realistically extrapolate laboratory results to the field scale. Different rainfall simulation systems produce different erosivity relationships. However, Meshesha et al.
Mohamed A.M. Abd Elbasit +2 more
openaire +1 more source
CATENA, 2021
Abstract Rainfall drop arrival rate (DAR) quantifies the number of impacts at the ground of drops of varying size per unit area and time. It can be calculated from the drop size distribution and fall speed data used for rain integral parameters such as total kinetic energy or rainfall intensity.
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Abstract Rainfall drop arrival rate (DAR) quantifies the number of impacts at the ground of drops of varying size per unit area and time. It can be calculated from the drop size distribution and fall speed data used for rain integral parameters such as total kinetic energy or rainfall intensity.
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Erosion Potential of Natural and Simulated Rainfall Compared
Transactions of the ASAE, 1972openaire +1 more source
Estimation of erosive potential and extreme rainfall events in a tropical mountainous watershed
2018Williams José Méndez Mata +3 more
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The relationship between potentially erosive storm energy and daily rainfall total.
2005Davison, P. +5 more
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Potential changes in rainfall erosivity in the U.S. with climate change during the 21 st century
Journal of Soil and Water Conservation, 2001openaire +1 more source