Effect of Slope Gradient and Plant Growth on Soil Loss on Reconstructed Steep Slopes

Abstract. A vegetation cover is found to be an ideal solution to most problems with erosion on steep slopes. Biodegradable geotextiles (GTX) have been proved to provide a sufficient protection against soil loss in the period before the vegetation reaches maturity. In this study, 500 g.m−2 jute (J500), 400 g.m−2 (C400), and 700 g.m−2 coir (C700) GTX were installed firstly on 9° slope in “no-inf iltration” laboratory conditions, secondly on 27° slope in natural field conditions. The impact of GTX on runoff and soil loss was investigated to compare the performance of GTX in different conditions. Laboratory runoff ratio (percentage portion of control plot) equaled 78 %, 83 % and 91 % and peak discharge ratio equaled 83 %, 91 % and 97 % for J500, C700 and C400, respectively. In the field, a runoff ratio of 31 %, 62 % and 79 % and peak discharge ratio of 37 %, 74 % and 87 % were recorded for C700, J500 and C400, respectively. All tested GTX significantly decreased soil erosion. The highest soil loss reduction in the field was observed for J500 (by 99.4%) followed by C700 (by 97.9%) and C400 (by 93.8%). Irrespective of slope gradient or experiment condition, C400 provided lower runoff volume and peak discharge control than J500 and C700. The performance ranking of J500 and C700 in the laboratory differed from the field, which may be explained by different slope gradient and also by the role of soil, which was not included in the laboratory experiment.

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Slope Gradient Effects on Soil Loss for Steep Slopes

Transactions of the ASAE ◽

10.13031/2013.28273 ◽

1994 ◽

Vol 37 (6) ◽

pp. 1835-1840 ◽

Cited By ~ 192

Author(s):

B. Y. Liu ◽

M. A. Nearing ◽

L. M. Risse

Keyword(s):

Soil Loss ◽

Slope Gradient ◽

Steep Slopes ◽

Gradient Effects

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Slope Length Effects on Soil Loss for Steep Slopes

Soil Science Society of America Journal ◽

10.2136/sssaj2000.6451759x ◽

2000 ◽

Vol 64 (5) ◽

pp. 1759-1763 ◽

Cited By ~ 154

Author(s):

B. Y. Liu ◽

M. A. Nearing ◽

P. J. Shi ◽

Z. W. Jia

Keyword(s):

Soil Loss ◽

Slope Length ◽

Steep Slopes ◽

Length Effects

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New Soil, Old Plants, and Ubiquitous Microbes: Evaluating the Potential of Incipient Basaltic Soil to Support Native Plant Growth and Influence Belowground Soil Microbial Community Composition

10.20944/preprints201809.0300.v1 ◽

2018 ◽

Author(s):

Aditi Sengupta ◽

Priyanka Kushwaha ◽

Antonia Jim ◽

Peter A. Troch ◽

Raina Maier

Keyword(s):

Microbial Community ◽

Plant Growth ◽

Community Composition ◽

Plant Species ◽

Soil Microbial Community ◽

Soil Loss ◽

Microbial Community Composition ◽

Parent Material ◽

Native Plant ◽

Soil Microbial

The plant-microbe-soil nexus is critical in maintaining biogeochemical balance of the biosphere. However, soil loss and land degradation are occurring at alarmingly high rates, with soil loss exceeding soil formation rates. This necessitates evaluating marginal soils for their capacity to support and sustain plant growth. In a greenhouse study, we evaluated the capacity of marginal incipient basaltic parent material to support native plant growth, and the associated variation in soil microbial community dynamics. Three plant species, native to the Southwestern Arizona-Sonora region were tested with three soil treatments including basaltic parent material, parent material amended with 20% compost, and potting soil. The parent material with and without compost supported germination and growth of all the plant species, though germination was lower than the potting soil. A 16S rRNA amplicon sequencing approach showed Proteobacteria to be the most abundant phyla in both parent material and potting soil, followed by Actinobacteria. Microbial community composition had strong correlations with soil characteristics but not plant attributes within a given soil material. Predictive functional potential capacity of the communities revealed chemoheterotrophy as the most abundant metabolism within the parent material, while photoheterotrophy and anoxygenic photoautotrophy were prevalent in the potting soil. These results show that marginal incipient basaltic soil has the ability to support native plant species growth, and non-linear associations may exist between plant-marginal soil-microbial interactions.

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Exploring the interaction of surface roughness and slope gradient in controlling rates of soil loss from sloping farmland on the Loess Plateau of China

Hydrological Processes ◽

10.1002/hyp.13588 ◽

2019 ◽

Vol 34 (2) ◽

pp. 339-354

Author(s):

Taotao Li ◽

Longshan Zhao ◽

Hongteng Duan ◽

Yifan Yang ◽

Yu Wang ◽

...

Keyword(s):

Surface Roughness ◽

Loess Plateau ◽

Soil Loss ◽

Slope Gradient ◽

The Loess Plateau ◽

Sloping Farmland

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Effects of land use, slope gradient, and soil and water conservation structures on runoff and soil loss in semi-arid Northern Ethiopia

Physical Geography ◽

10.1080/02723646.2013.832098 ◽

2013 ◽

Vol 34 (3) ◽

pp. 236-259 ◽

Cited By ~ 79

Author(s):

Gebeyehu Taye ◽

Jean Poesen ◽

Bas Van Wesemael ◽

Matthias Vanmaercke ◽

Daniel Teka ◽

...

Keyword(s):

Land Use ◽

Water Conservation ◽

Soil Loss ◽

Soil And Water Conservation ◽

Northern Ethiopia ◽

Slope Gradient ◽

Runoff And Soil Loss ◽

Effects Of Land Use ◽

Semi Arid ◽

Soil And Water

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Soil Loss Caused by Off-Road Vehicle Use on Steep Slopes

Transactions of the ASAE ◽

10.13031/2013.33947 ◽

1983 ◽

Vol 26 (2) ◽

pp. 0402-0405 ◽

Cited By ~ 4

Author(s):

C. W. Johnson ◽

J. P. Smith

Keyword(s):

Soil Loss ◽

Road Vehicle ◽

Steep Slopes

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Quantitative Evaluation of the Relationship Between Slope Gradient and Infiltration Capacity Based on a Rainfall Experiment Using Pit Sand

Journal of Disaster Research ◽

10.20965/jdr.2020.p0745 ◽

2020 ◽

Vol 15 (6) ◽

pp. 745-753

Author(s):

Toru Danjo ◽

◽

Tomohiro Ishizawa

Keyword(s):

Surface Layer ◽

Slope Stability ◽

Soil Loss ◽

Rainfall Intensity ◽

Horizontal Distance ◽

Slope Gradient ◽

Slope Surface ◽

Infiltration Capacity ◽

Tank Model ◽

The Relationship

The infiltration of rainfall into a slope surface may affect slope stability; thus, it is important to understand the amount of rainfall infiltration (hereafter referred to as the “infiltration capacity”) for a slope surface layer when evaluating slope stability. This research focuses on slope gradient, a factor affecting the infiltration capacity, and performs two types of water-spraying experiments using pit sand under the same conditions but with different slope gradients. In the first experiment, the surface flow rate and soil loss were measured using an earth-tank model with a horizontal distance of 0.5 m, depth of 0.1 m, and width of 0.2 m to form slope gradients of 2°, 20°, and 40° to clarify the effect of slope gradient on the infiltration capacity. In the second experiment, a water-spraying experiment that closely simulated natural rainfall was performed at a large-scale rainfall facility owned by the National Research Institute for Earth Science and Disaster Resilience (NIED), Japan. This experiment used an earth-tank model with a horizontal distance of 1.21 m, depth of 0.5 m, and width of 0.5 m to form slope gradients of 2°, 10°, 20°, 30°, and 40° with the aim of proposing a quantitative evaluation method for the relationship between the slope gradient and infiltration capacity. The results showed that the soil loss and infiltration capacity increased as the slope gradient increased in the case of the pit sand used in the experiments. This was confirmed to be due to the fact that an increased gradient allowed grains with diameters of <50 μm in the slope surface layer to flow out easily, thereby increasing the infiltration capacity. In addition, the relationship between the rainfall intensity and infiltration capacity revealed that the infiltration capacity varied depending on the rainfall intensity and slope gradient, which is unlike the relationship for constant values such as the permeability coefficient. Moreover, the research findings indicated a strong, positive linear relationship (R2 = 0.98) between the slope gradient and fitting factor Ic. Therefore, the relationship between rainfall intensity and the infiltration capacity could be expressed using the fitting factor Ic. This suggests the possibility of quantitatively evaluating the relationships between rainfall intensity, the infiltration slope gradient, and the infiltration capacity.

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Reduction of runoff and soil loss over steep slopes by using vetiver hedgerow systems

Paddy and Water Environment ◽

10.1007/s10333-012-0350-2 ◽

2012 ◽

Vol 11 (1-4) ◽

pp. 573-581 ◽

Cited By ~ 15

Author(s):

S. Donjadee ◽

T. Tingsanchali

Keyword(s):

Soil Loss ◽

Steep Slopes ◽

Runoff And Soil Loss

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Rainfall and human activity impacts on soil losses and rill erosion in vineyards (Ruwer Valley, Germany)

Solid Earth ◽

10.5194/se-6-823-2015 ◽

2015 ◽

Vol 6 (3) ◽

pp. 823-837 ◽

Cited By ~ 53

Author(s):

J. Rodrigo Comino ◽

C. Brings ◽

T. Lassu ◽

T. Iserloh ◽

J. M. Senciales ◽

...

Keyword(s):

Human Activity ◽

Soil Loss ◽

Soil Analysis ◽

Rill Erosion ◽

Erosion Rates ◽

Short Period ◽

Different Seasons ◽

Steep Slopes ◽

The Village ◽

Experimental Plots

Abstract. Vineyards are one of the eco-geomorphological systems most conditioned by human activity in Germany. The vineyards of the Ruwer Valley (Germany) are characterized by high soil erosion rates and rill problems on steep slopes (between 23 and 26°) caused by the increasingly frequent heavy rainfall events as well as deterioration due to incorrect land use managements. The objective of this paper is to determine and to quantify the hydrological and erosive phenomena in one vineyard in Germany during different seasons and under different management conditions (before, during and after vintage). For this purpose, a combined methodology was applied. Climatic (rainfall depth distributions and return periods), pedological (soil analysis and classification), geomorphological (sediment movements and rills evolution) and biological (botanic marks on the vines) variables were used on the two experimental plots in the village of Waldrach (Trier, region of Rhineland-Palatinate). The results showed high infiltration rates (near 100 %) and subsurface flow which were detected by rainfall simulations performed at different times of the year (between September and December). The highest variations of the monitored rills (lateral and frontal movements) were noted before and during vintage, when footsteps occurred concentrated during a short period of time (between September and October). Finally, two maps of soil loss were generated, indicated by botanic marks on the graft union of the vines. 62.5 t ha−1 yr−1 soil loss was registered in the experimental plots of the new vineyards (2 years), while 3.4 t ha−1 yr−1 was recorded in the old one (35 years).

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