Soil erosion and nutrient loss due to changes in rainfall intensity under different wind directions

An, Miaoying; Chen, Wei; A., Han, Y.; Qu, Zhixu; Wang, Xiuru; Zhang, Baozhong

doi:10.1002/esp.5674

Cited by 3 publications

(1 citation statement)

References 32 publications

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“…Nutrient concentrations in slope surface runoff increase with increased raindrop kinetic energy and decrease with increased soil infiltration rate [16]. With increased rainfall intensity, the cumulative flow of surface runoff, subsurface runoff, and surface karst zone runoff also increase [17] nitrate leaching in tillage rather than no-till cropping systems [18], and runoff, sediment yield, and related N loss increase significantly [19]. Heavy rainfall during the rainy season mainly drives soil nutrient output and TN loss, nitrate nitrogen (NO 3 − -N) content correlates negatively with rainfall runoff, and NH 4 + -N correlates positively [20,21].…”

Section: Introductionmentioning

confidence: 99%

Research on Multi-Factor Effects of Nitrogen Loss in Slope Runoff

Wang,

Zhang

et al. 2024

Water

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To study the characteristics of nitrogen (N) loss on slopes, different vegetation (bare soil, alfalfa), slopes (5°, 10°, 15°), and rainfall intensities (40, 60, 80 mm/h) were set as variable factors in simulated rainfall experiments. Surface runoff accounts for 60.38–96.16% of total runoff and most N loss (57.69–88.67% of NO3−-N). Alfalfa can reduce average concentrations of N loss in runoff and reduce N loss in surface runoff by more than 48.29%, as well as subsurface runoff by 3.8%. Average N loss in subsurface runoff exceeds that of surface runoff. Rainfall intensity most affects N loss from surface runoff in bare soil conditions, and slope most affects N loss in subsurface runoff. Rainfall intensity in alfalfa treatments most influences runoff volume and N loss. The comprehensive effects of rainfall intensity, slope, and vegetation cover on the total loss of various forms of nitrogen in surface runoff can be described using a linear correlation equation, with a correlation coefficient between 0.84 and 0.91.

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Section: Introductionmentioning

confidence: 99%

Research on Multi-Factor Effects of Nitrogen Loss in Slope Runoff

Wang,

Zhang

et al. 2024

Water

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Nutrient runoff and leaching under various fertilizer treatments and pedogeographic conditions: A case study in tobacco (Nicotiana tabacum L.) fields of the Erhai Lake basin, China

Wang,

Miao,

Wei

et al. 2024

European Journal of Agronomy

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Effect of Gastrodia elata Bl Cultivation under Forest Stands on Runoff, Erosion, and Nutrient Loss

Yang,

2024

Forests

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(1) Background: The understory planting of Chinese herbal medicine is a common soil and water conservation farming measure, and this approach makes full use of the natural conditions of the understory. However, a large number of studies on soil erosion have focused on the simulation of natural indoor conditions, and there are very few investigations on soil erosion caused by understory planting in the field. This study aims to investigate the effects of different slopes on soil and water and nitrogen–phosphorus nutrient loss from understory planting of Gastrodia elata Bl by changing the vegetation structure and soil structure of forest land. (2) Methods: To reveal the nitrogen and phosphorus loss and flow and sediment characteristics of the understory planting of Gastrodia elata Bl, runoff plots were set up in a field, and three surface slopes (5°, 15°, and 20°) were designed to collect runoff sediments and compare the soil and water loss between the natural slopes and those with Gastrodia elata Bl. This provides a basis for the restoration of vegetation cover and the enhancement of soil fertility. (3) Results: The total loss of soil, water, nitrogen, and phosphorus in the forested land with Gastrodia elata Bl increased significantly compared with that in the natural forested land, and the greater the slope was, the greater the loss was. (4) Conclusions: Planting Gastrodia elata Bl should be avoided in areas with steep slopes and serious soil erosion. However, some soil and water conservation engineering measures can be taken, such as the construction of retaining walls, drainage ditches, etc., to minimize the scouring and erosion of soil by rainwater.

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Soil erosion and nutrient loss due to changes in rainfall intensity under different wind directions

Cited by 3 publications

References 32 publications

Research on Multi-Factor Effects of Nitrogen Loss in Slope Runoff

Research on Multi-Factor Effects of Nitrogen Loss in Slope Runoff

Nutrient runoff and leaching under various fertilizer treatments and pedogeographic conditions: A case study in tobacco (Nicotiana tabacum L.) fields of the Erhai Lake basin, China

Effect of Gastrodia elata Bl Cultivation under Forest Stands on Runoff, Erosion, and Nutrient Loss

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