Search results for " USLE"

showing 8 items of 18 documents

Verifica sperimentale del fattore L della USLE-MM nell’area di Sparacia

2012

Settore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestalifattore L USLE-MM

Deducing the USLE mathematical structure by dimensional analysis and self-similarity theory

2010

The Universal Soil Loss Equation (USLE) was originally deduced by a statistical analysis of a large data set of soil loss measurements. The multiplicative structure of the model has been criticised due to the considerable interdependence between the variables. Using the soil erosion representative variables and the reference condition adopted in the USLE, the aim of this paper was to apply dimensional analysis and self-similarity theory to deduce the functional relationship among the selected variables. The analysis yielded a multiplicative equation, similar to the USLE. Therefore, this study suggested that the USLE has a logical structure with respect to the variables used to simulate the …

Structure (mathematical logic)Self-similarityMathematical modelMultiplicative functionSoil ScienceData setSoil lossUniversal Soil Loss Equationerosione idrica USLEControl and Systems EngineeringCalculusSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-ForestaliApplied mathematicsMathematical structureAgronomy and Crop ScienceFood ScienceMathematicsBiosystems Engineering

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Practical thresholds to distinguish erosive and rill rainfall events

2019

Abstract In this paper, 1017 rainfall events from 2008 to 2017 are used to identify the rainfall threshold that produces upland erosion at the Masse (central Italy) and Sparacia (southern Italy) experimental stations. The rainfall events are classified into three classes: non-erosive, interrill-only and rill. The threshold values for separating as correctly as possible the erosive rains (case I) and the rill rains (case II) are derived solely from the hyetograph. Each threshold value is obtained by imposing that the long-term erosivity of the events above the threshold is equal to the long-term erosivity of all erosive events (case I) or only rill events (case II). The performances of selec…

Water erosionThreshold limit valueRainfall patternSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-ForestaliRUSLEUSLETruncation (statistics)Interrill; Rainfall erosivity; Rainfall hyetograph; Rainfall pattern; Rainfall thresholds; RUSLE; Soil erosion; Soil loss; USLERainfall hyetographWater Science and TechnologyHydrologySoil logeographyRainfall thresholdsgeography.geographical_feature_categoryInterrillRainfall erosivityRainfall thresholdSoil lossRillHyetographSoil erosionErosionEnvironmental scienceScale (map)Predictive modellingJournal of Hydrology

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Sulla stima del fattore colturale della USLE-MM per coperture forestali ad eucalitto

2011

Il fattore colturale C della Universal Soil Loss Equation (USLE) esprime l’efficacia antierosiva della copertura vegetale nei riguardi del suolo. Per il caso di terreni coltivati esso varia con la rotazione colturale, con le pratiche agronomiche, con il livello di produttività del suolo, con la durata delle varie fasi vegetative e con la distribuzione temporale delle precipitazioni. Nell’ambito di suoli caratterizzati da copertura forestale il fattore C risulta legato, oltre che alle precipitazioni, anche alla percentuale di suolo effettivamente coperto, alla presenza o meno di pascolo, alle pratiche selvicolturali (tagli), al verificarsi di danni a seguito di incendi o fitopatologie, all’e…

erosione USLE-MM fattore colturale

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Applicazione della USLE-MM per la stima distribuita della produzione di sedimenti

2011

erosione USLE-MM fattore di erosivitàSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali

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Statistical check of USLE-M and USLE-MM to predict bare plot soil loss in two Italian environments

2018

The USLE-M and the USLE-MM estimate event plot soil loss. In both models, the erosivity term is given by the runoff coefficient, QR, times the single-storm erosion index, EI30. In the USLE-MM, QREI30is raised to an exponent b1> 1 whereas b1= 1 is assumed in the USLE-M. Simple linear regression analysis can be applied to parameterize both models, but logarithmically transformed data have to be used for USLE-MM. Parameterizing the USLE-MM with nonlinear regression of untransformed data could be a more appropriate procedure. A statistical check of the two suggested models (USLE-M and USLE-MM), considering two alternative parameterization procedures for the USLE-MM, was carried out for the Mass…

event temporal scale model parameterization plot soil loss USLE-M USLE-MM0208 environmental biotechnologyplot soil lossSoil ScienceSoil science02 engineering and technologyDevelopmentevent temporal scalePlot (graphics)Plot soil lo020801 environmental engineeringSoil lossSettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestalimodel parameterizationUSLE-MUSLE-MMEnvironmental ChemistryEnvironmental scienceGeneral Environmental ScienceLand Degradation & Development

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Testing the Universal Soil Loss Equation-MB equation in plots in Central and South Italy

2019

Planning soil conservation strategies requires predictive techniques at event scale because a large percentage of soil loss over a long-time period is due to relatively few large storms. Considering runoff is expected to improve soil loss predictions and allows relation of the process-oriented approach with the empirical one, furthermore, the effects of detachment and transport on soil erosion processes can be distinguished by a runoff component. In this paper, the empirical model USLE-MB (USLE-M based), including a rainfall-runoff erosivity factor in which the event rainfall erosivity index EI30 of the Universal Soil Loss Equation (USLE) multiplies the runoff coefficient QR raised to an ex…

soil erosionsoil loss estimateSoil scienceplot measurementRunoff coefficientUniversal Soil Loss Equationplot measurements; rainfall-runoff erosivity; runoff coefficient; soil erodibility; soil erosion; soil loss estimate; USLE; USLE-MBrainfall-runoff erosivityUSLE-MBplot measurementsEnvironmental scienceUSLErunoff coefficientWater Science and Technologysoil erodibility

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Measuring the USLE soil erodibility factor in the unit plots of Sparacia (southern Italy) experimental area

2022

The Universal Soil Loss Equation (USLE) is still widely used to predict soil loss by water erosion and to establish soil conservation measures. In this model, the soil erodibility factor K accounts for the susceptibility of the soil to be eroded due to the detachment and transport processes operated by the erosive agents. According to the USLE scheme, the K factor should be measured on unit plots, i.e., bare plots of given length (22 m) and steepness (9%) tilled along the maximum slope direction, but there is little evidence that there ever existed an actual unit plot between the plots used to develop the USLE. Given the difficulty in collecting sufficient data to adequately measure K, the …

soil loss plot measurements unit plot USLESettore AGR/08 - Idraulica Agraria E Sistemazioni Idraulico-Forestali

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