Erosion is an exogenous phenomenon, antagonistic to the constructive forces both of an endogenous nature (i.e. orogeny) and of a biological nature (i.e. coral reef), leading to the dismantling of the earth's surface and filling, with the clastic material produced, sedimentary basins and depressions in order to level differences in altitude [1]. It is estimated that, in Europe, 25 million hectares of soil are subject to "accelerated erosion processes" [2] and that, in several areas, the magnitude of soil loss is around a few tens of tons per year. Approximately 77% of Italy is at risk of accelerated erosion [3], also due to the lack of conservative measures for soil (hydraulic-agrarian measures, drainage, grassing, etc.). The phenomenon takes on particular importance in cultivated areas, where drastic changes have been imposed in soil use and sometimes, instead of natural and stable land cover, bare soil is subject to erosive agents. In this paper, the erosivity density approach introduced in Revised Universal Soil Loss Equation 2 (RUSLE2 [4]), will be used to develop monthly erosivity maps for the Lazio region (in central Italy). This was achieved through a full investigation carried out on the monthly (Pmd), daily (P2411) and sub-daily (15-minute time-scale, Pis) precipitation amounts available from rain gauges deployed across the study area.
Mapping monthly rainfall erosivity for the Lazio region (Italy) / Mineo, Claudio; Ridolfi, Elena; Moccia, Benedetta; Napolitano, Francesco. - 2293:(2020). (Intervento presentato al convegno International Conference on Numerical Analysis and Applied Mathematics 2019, ICNAAM 2019 tenutosi a Sheraton Rhodes Resort, grc) [10.1063/5.0027275].
Mapping monthly rainfall erosivity for the Lazio region (Italy)
Mineo, Claudio;Ridolfi, Elena;Moccia, Benedetta;Napolitano, Francesco
2020
Abstract
Erosion is an exogenous phenomenon, antagonistic to the constructive forces both of an endogenous nature (i.e. orogeny) and of a biological nature (i.e. coral reef), leading to the dismantling of the earth's surface and filling, with the clastic material produced, sedimentary basins and depressions in order to level differences in altitude [1]. It is estimated that, in Europe, 25 million hectares of soil are subject to "accelerated erosion processes" [2] and that, in several areas, the magnitude of soil loss is around a few tens of tons per year. Approximately 77% of Italy is at risk of accelerated erosion [3], also due to the lack of conservative measures for soil (hydraulic-agrarian measures, drainage, grassing, etc.). The phenomenon takes on particular importance in cultivated areas, where drastic changes have been imposed in soil use and sometimes, instead of natural and stable land cover, bare soil is subject to erosive agents. In this paper, the erosivity density approach introduced in Revised Universal Soil Loss Equation 2 (RUSLE2 [4]), will be used to develop monthly erosivity maps for the Lazio region (in central Italy). This was achieved through a full investigation carried out on the monthly (Pmd), daily (P2411) and sub-daily (15-minute time-scale, Pis) precipitation amounts available from rain gauges deployed across the study area.File | Dimensione | Formato | |
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Note: https://aip.scitation.org/doi/10.1063/5.0027275
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