The Effect of Soil Type, Slope, Rain Intensity and Their Interactions on Splash Detachment and Transport

Quansah, Charles

doi:10.1111/j.1365-2389.1981.tb01701.x

Cited by 129 publications

(84 citation statements)

References 10 publications

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“…The splash detachment rate (F; kg m -2 ) in the MMF model is calculated as: Quansah (1981) and used by De Jong et al (1999). K depends on the particle size distribution of the soil and is adopted from the MMF model guide (Morgan, 2001; Table 3).…”

Section: Splash and Runoff Detachment Ratesmentioning

confidence: 99%

Modelling soil detachment rates in rainfed agrosystems in the south-central Pyrenees

López‐Vicente

Izquierdo

Machı́n

2008

Agricultural Water Management

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Distributed erosion models are potential tools for identifying soil sediment sources and guiding efficient Soil and Water Conservation (SWC) planning. However, the uncertainty of model predictions has yet to be resolved. Splash erosion is one of the most important mechanisms in soil loss. In this study, monthly splash detachment rates were predicted using the Morgan, Morgan and Finney (MMF) empirical erosion model and the more complex Revised Morgan, Morgan and Finney (RMMF) erosion model. These two models were used to assess active and abandoned fields in the Spanish Pyrenees. Land uses were barley fields, pasture, recently and old abandoned fields. Input parameters assessed were rainfall characteristics, soil properties, land forms, and land cover. The splash detachment rates predicted by the MMF and the RMMF models were higher for barley fields than for pasture and abandoned fields. However, the more complex RMMF model predicted lower splash detachment rates, especially in pastures. In contrast, runoff detachment was highest in old abandoned fields although rates were much lower than those of splash detachment. Cs and the MMF and RMMF models shows that the models predict lower erosion rates due to the low estimated rates of the runoff transport capacity. However, the estimated and measured rates are in close agreement and are under the limit of the tolerable soil loss for soils under Mediterranean conditions.

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Section: Splash and Runoff Detachment Ratesmentioning

confidence: 99%

Modelling soil detachment rates in rainfed agrosystems in the south-central Pyrenees

López‐Vicente

Izquierdo

Machı́n

2008

Agricultural Water Management

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“…Experiments with single drop sizes do not reproduce the variations in the frequency of raindrop impacts and the interactions due to simultaneous drops hitting the ground. Quansah [1981] conducted a factorial experiment (soil type, rain intensity, and slope) on splash detachment and transport. The experiments were carried out in the laboratory, and rain was simulated using a nozzle simulator with a rotating disk producing the entire spectrum of raindrop diameters observed in natural rains.…”

Section: Introductionmentioning

confidence: 99%

Statistical and physical analysis of soil detachment by raindrop impact: Rain erosivity indices and threshold energy

Salles¹,

Poesen²,

Govers³

2000

Water Resources Research

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“…L'incision du sol se produit quand la force tractrice du ruissellement dépasse une valeur critique (Birot, 1981 ;Govers, 1991 ;Gilley et al, 1993) qui varie selon la résistance du sol (Quansah, 1985 ;Le Bissonnais et al, 1993). Si la vitesse ne dépasse que de peu la valeur critique, qu'on peut évaluer d'après la courbe de Hjulström (1935) à 20 cm/s pour les sols à texture sableuse, le ruissellement concentré ne creuse que des griffes et des rigoles.…”

Section: Les Mécanismes Du Ruissellement Et De L'ablationunclassified

La morphogenèse accélérée menace-t-elle les régions rurales de l’ouest du bassin parisien ?

Larue

2003

gpq

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Les ravinements et les inondations boueuses constituent les principaux risques naturels des espaces ruraux vallonnés de l’ouest du Bassin parisien. Une part importante des matériaux érodés atteint les cours d’eau secondaires qui voient leur dynamique fluviale modifiée. Cela traduit le début d’une morphogenèse accélérée qui tend à prendre le relais de la morphogenèse ménagée. L’enquête historique et l’analyse des dépôts anciens montrent que cette dernière a accompagné l’anthropisation tant qu’elle a laissé subsister un minimum d’obstacles (haies, talus, fossés) au ruissellement concentré. Des solutions existent pour ralentir ou stopper cette morphogenèse accélérée.Gullying and muddy floods are the main natural hazards in the hilly, sandy rural areas of the West of the Paris basin. Many deposits reach the secondary rivers and modify their fluvial dynamics. These phenomena are the onset of an accelerated erosion which takes over from slow erosion. Historical investigation and sedimentological analysis of early deposits show that slow erosion continued as long as obstacles such as hedges or ditches remained on the slopes. Preventive actions can be taken to reduce accelerated erosion.La erosión en cárcava y las inundaciones de lodo constituyen los principales riesgos naturales de los espacios rurales ondulados del oeste de la cuenca parisina. Una parte importante de los materiales erosionados alcanzan el cauce secundario y en consecuencia ve su dinámica fluvial modificada. Esto se traduce por un inicio de la morfogénesis acelerada que tiende a remplazar la morfogénesis ordenada. Una encuesta histórica y el análisis de los depósitos antiguos muestran que esta ultima acompañó la modificación del terreno debida al hombre y dejó subsistir un mínimo de obstáculos (barreras, taludes o fosas). Existen soluciones que permitirían disminuir o detener dicha erosión acelerada

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The Effect of Soil Type, Slope, Rain Intensity and Their Interactions on Splash Detachment and Transport

Cited by 129 publications

References 10 publications

Modelling soil detachment rates in rainfed agrosystems in the south-central Pyrenees

Modelling soil detachment rates in rainfed agrosystems in the south-central Pyrenees

Statistical and physical analysis of soil detachment by raindrop impact: Rain erosivity indices and threshold energy

La morphogenèse accélérée menace-t-elle les régions rurales de l’ouest du bassin parisien ?

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