Modelling of Soil Erosion and Accumulation in an Agricultural Landscape—A Comparison of Selected Approaches Applied at the Small Stream Basin Level in the Czech Republic

Jakubínský, Jiří; Pechanec, Vilém; Procházka, Jan; Cudlín, Pavel

doi:10.3390/w11030404

Cited by 15 publications

(9 citation statements)

References 39 publications

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“…Both bare land and annual cropland showed an average change of 3.66 % and 9.55 %, respectively, in the study years. This finding is comparable with the result ( Aneseyee et al., 2020 ; Bai et al., 2019 ; Jakubínský et al., 2019 ). Similarly, changing the natural vegetation and agroforestry-based agriculture to intensive farming may be another reason for the change in soil loss ( Tesema, 2015 ).…”

Section: Discussionsupporting

confidence: 92%

“…However, the model is unable to estimate the amount of sediment export that reaches the water body. On the other hand, the InVEST SDR model has an advantage in addressing the limitation of the RUSLE model ( Girma and Gebre, 2020 ; Jakubínský et al., 2019 ). The model has the capacity to estimate the rate of soil loss, sediment export, sediment retention, and other erosion process components.…”

Section: Introductionmentioning

confidence: 99%

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Spatiotemporal dynamics of soil loss and sediment export in Upper Bilate River Catchment (UBRC), Central Rift Valley of Ethiopia

Tamire

Elias

Argaw

2022

Heliyon

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Spatiotemporal dynamics of soil loss and sediment export in Upper Bilate River Catchment (UBRC), Central Rift Valley of Ethiopia

Tamire

Elias

Argaw

2022

Heliyon

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“…Precise comparison of erosion losses in growing different crops in different locations is rather problematic due to various factors. There are even relatively high differences in the determination of the amount of eroded soil by using an individual models applied (without the need for field measurements) to the same territory within one study [64]. However, in the conditions of the Czech Republic, the erosion vulnerability of soils covered with maize was studied, e.g., by Kadlec et al [65].…”

Section: Erosion Threatsmentioning

confidence: 99%

Effect of Fertilization on the Energy Profit of Tall Wheatgrass and Reed Canary Grass

et al. 2021

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Cultivation of energy crops is a part of modern agriculture. In particular, maize (Zea mays L.) is widely grown in central Europe. However, in terms of erosion risk and high demands on fertilization and protection against diseases and pests, its growing is not environmentally friendly. Therefore, possibilities of utilization of other more environmentally friendly energy crops have been examined at present. The aim of the study was to evaluate the effects of various fertilization (mineral, digestate, control) on the yields of tall wheatgrass (TWG) (Elymus elongatus subsp. ponticus) and reed canary grass (RCG) (Phalaris arundinacea L.) cultivated in a long-term field experiment on the experimental site in Czech Republic. The energy profit from cultivation of these crops and its protective anti-erosion effect were evaluated. The average yields ranged from 4.6 (RCG, mineral fertilization) to 7.4 t/ha (TWG, digestate fertilization). The more profitable species was tall wheatgrass, the biomass of which also had the higher heating value. The energy profit ranged from 80 GJ/ha (RCG, control variant and mineral fertilization) to 133 GJ/ha (TWG, digestate and mineral fertilization). It has been found that the tested plants excel in anti-erosion effect and could therefore be a suitable alternative to maize, especially in less-favored areas.

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“…In central Czech Republic, a small stream catchment with an agricultural and forest-agricultural landscape and relatively rugged topography and riverbed slope [57] make the terrain very vulnerable to water erosion, and this was studied to compare four selected soil erosion and sediment delivery models-WaTEM/SEDEM, USPED, InVEST, and TerrSet, with each working on several different algorithms. The models were compared based on the total volume of eroded and accumulated sediment within the catchment per unit time, and according to the spatial distribution of sites susceptible to soil loss or sediment accumulation.…”

Section: Summary Of the Special Issuementioning

confidence: 99%

Modeling and Practice of Erosion and Sediment Transport under Change

Aksoy

Mahé

Meddi

2019

Water

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Climate and anthropogenic changes impact on the erosion and sediment transport processes in rivers. Rainfall variability and, in many places, the increase of rainfall intensity have a direct impact on rainfall erosivity. Increasing changes in demography have led to the acceleration of land cover changes from natural areas to cultivated areas, and then from degraded areas to desertification. Such areas, under the effect of anthropogenic activities, are more sensitive to erosion, and are therefore prone to erosion. On the other hand, with an increase in the number of dams in watersheds, a great portion of sediment fluxes is trapped in the reservoirs, which do not reach the sea in the same amount nor at the same quality, and thus have consequences for coastal geomorphodynamics. The Special Issue "Modeling and Practice of Erosion and Sediment Transport under Change" is focused on a number of keywords: erosion and sediment transport, model and practice, and change. The keywords are briefly discussed with respect to the relevant literature. The papers in this Special Issue address observations and models based on laboratory and field data, allowing researchers to make use of such resources in practice under changing conditions.

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Modelling of Soil Erosion and Accumulation in an Agricultural Landscape—A Comparison of Selected Approaches Applied at the Small Stream Basin Level in the Czech Republic

Cited by 15 publications

References 39 publications

Spatiotemporal dynamics of soil loss and sediment export in Upper Bilate River Catchment (UBRC), Central Rift Valley of Ethiopia

Spatiotemporal dynamics of soil loss and sediment export in Upper Bilate River Catchment (UBRC), Central Rift Valley of Ethiopia

Effect of Fertilization on the Energy Profit of Tall Wheatgrass and Reed Canary Grass

Modeling and Practice of Erosion and Sediment Transport under Change

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