Identifying optimal ridge practices under different rainfall types on runoff and soil loss from sloping farmland in a humid subtropical region of Southern China

Vinh Linh, the northern district of Quang Tri province is characterized by a diversified topography with a large variety of elevations, high rainfall, and decreasing land cover due to forest exploiting for cultivation land. Thus, there is a high risk of erosion, soil fertility washout. With the support of GIS technology, the authors used the rMMF model to measure soil erosion. The input data of model including 15 coefficients related to topography, soil properties, climate and land cover. The simulations of rMMF include estimates of rainfall energy, runoff, soil particle detachment by raindrop, soil particle detachment by runoff, sediment transport capacity of runoff and soil loss. The result showed that amount of soil loss in year is estimated to vary between 0 kg/m2 minimum and 149 kg/m2 maximum and is divided into 4-classes of erosion. Light class almost covers the region researched (75.9% of total area), while moderate class occupies 8.1% of total area, strong classes only hold small area (16% of total area). Therefore, protection of the forest floor in sloping areas is one of the most effective methods to reduce soil erosion.

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Runoff and Soil Loss of a Typical Subtropical Forest Stricken by Wenchuan Earthquake

Chinese Journal of Appplied Environmental Biology ◽

10.3724/sp.j.1145.2013.00766 ◽

2013 ◽

Vol 19 (5) ◽

pp. 766-773

Author(s):

Jinniu WANG ◽

Geng SUN ◽

Fusun SHI ◽

Jiceng XU ◽

Yan WU ◽

...

Keyword(s):

Wenchuan Earthquake ◽

Soil Loss ◽

Subtropical Forest ◽

Runoff And Soil Loss

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Impacts of soil conservation measures on runoff and soil loss in a hilly region, Northern China

Agricultural Water Management ◽

10.1016/j.agwat.2021.106740 ◽

2021 ◽

Vol 247 ◽

pp. 106740

Author(s):

Fang Haiyan

Keyword(s):

Soil Conservation ◽

Soil Loss ◽

Northern China ◽

Conservation Measures ◽

Hilly Region ◽

Runoff And Soil Loss ◽

Soil Conservation Measures

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Evaluating of the spatial heterogeneity of soil loss tolerance and its effects on erosion risk in the carbonate areas of southern China

Solid Earth ◽

10.5194/se-8-661-2017 ◽

2017 ◽

Vol 8 (3) ◽

pp. 661-669 ◽

Cited By ~ 9

Author(s):

Yue Li ◽

Xiao Yong Bai ◽

Shi Jie Wang ◽

Luo Yi Qin ◽

Yi Chao Tian ◽

...

Keyword(s):

Soil Erosion ◽

Spatial Heterogeneity ◽

Soil Loss ◽

Carbonate Rock ◽

Southern China ◽

Clastic Rock ◽

Erosion Risk ◽

Soil Loss Tolerance ◽

Loss Tolerance ◽

The Relationship

Abstract. Soil loss tolerance (T value) is one of the criteria in determining the necessity of erosion control measures and ecological restoration strategy. However, the validity of this criterion in subtropical karst regions is strongly disputed. In this study, T value is calculated based on soil formation rate by using a digital distribution map of carbonate rock assemblage types. Results indicated a spatial heterogeneity and diversity in soil loss tolerance. Instead of only one criterion, a minimum of three criteria should be considered when investigating the carbonate areas of southern China because the one region, one T value concept may not be applicable to this region. T value is proportionate to the amount of argillaceous material, which determines the surface soil thickness of the formations in homogenous carbonate rock areas. Homogenous carbonate rock, carbonate rock intercalated with clastic rock areas and carbonate/clastic rock alternation areas have T values of 20, 50 and 100 t/(km2 a), and they are extremely, severely and moderately sensitive to soil erosion. Karst rocky desertification (KRD) is defined as extreme soil erosion and reflects the risks of erosion. Thus, the relationship between T value and erosion risk is determined using KRD as a parameter. The existence of KRD land is unrelated to the T value, although this parameter indicates erosion sensitivity. Erosion risk is strongly dependent on the relationship between real soil loss (RL) and T value rather than on either erosion intensity or the T value itself. If RL > > T, then the erosion risk is high despite of a low RL. Conversely, if T > > RL, then the soil is safe although RL is high. Overall, these findings may clarify the heterogeneity of T value and its effect on erosion risk in a karst environment.

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Surface runoff and soil loss in tropical rainforest and pasture, Costa Rica, and indices explaining their variations

Zeitschrift für Geomorphologie ◽

10.1127/zfg/48/2004/25 ◽

2004 ◽

Vol 48 (1) ◽

pp. 25-51 ◽

Cited By ~ 2

Author(s):

Margareta B. Jansson ◽

Katarina Strömberg

Keyword(s):

Costa Rica ◽

Surface Runoff ◽

Soil Loss ◽

Tropical Rainforest ◽

Runoff And Soil Loss

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The effects of vegetation on runoff and soil loss: Multidimensional structure analysis and scale characteristics

Journal of Geographical Sciences ◽

10.1007/s11442-018-1459-z ◽

2017 ◽

Vol 28 (1) ◽

pp. 59-78 ◽

Cited By ~ 32

Author(s):

Jianbo Liu ◽

Guangyao Gao ◽

Shuai Wang ◽

Lei Jiao ◽

Xing Wu ◽

...

Keyword(s):

Structure Analysis ◽

Soil Loss ◽

Scale Characteristics ◽

Runoff And Soil Loss

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Effects of two crop rotations on seasonal runoff and soil loss in the Peace River region

Canadian Journal of Soil Science ◽

10.4141/cjss91-051 ◽

1991 ◽

Vol 71 (4) ◽

pp. 533-543 ◽

Cited By ~ 12

Author(s):

L. J. P. Van Vliet ◽

J. W. Hall

Keyword(s):

Soil Loss ◽

Crop Rotations ◽

Snowmelt Runoff ◽

Hordeum Vulgare L ◽

Peace River ◽

Residual Variation ◽

River Region ◽

Seasonal Runoff ◽

Runoff And Soil Loss ◽

Soil Losses

Four erosion plots were monitored from 1983 to 1989 (6 yr) to evaluate the effects of two crop rotations and their constituent crops on runoff and soil loss under natural precipitation near Fort St. John in the Peace River region of British Columbia. Rotation 1 consisted of two cycles of summerfallow — canola (Brassica rapa)-barley (Hordeum vulgare L.), and Rotation 2 included summerfallow — canola-barley-barley underseed to red fescue (Festuca rubra L.)-fescue-fescue. Rainfall and snowmelt runoff were collected and sampled throughout the year to determine seasonal runoff and soil losses. Over the 6 yr, the cumulative runoff and soil losses were consistently greater under Rotation 1 than under Rotation 2. There was a greater than fourfold difference in total soil loss, and 33–35% more total runoff. Rainfall-induced runoff and soil losses were significantly higher for Rotation 1 than for Rotation 2. Snowmelt runoff accounted for 90 and 96% of the total annual runoff and for 39 and 80% of the total annual soil loss from Rotations 1 and 2, respectively. Two large rainfall events during 1983 and 1987, each causing a soil loss in excess of 2000 kg ha−1, accounted for between 85 and 91% of the 6-yr total rainfall-induced erosion from Rotation 1. No differences in runoff or soil loss were detected among crops but the comparisons were insensitive because of high residual variation. Key words: Runoff, soil loss, erosion plots, crop rotations

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