Morphodynamics of Headcut Development and Soil Erosion in Upland Concentrated Flows

Wells, Robert R.; Alonso, Carlos; Bennett, Sean J.

doi:10.2136/sssaj2008.0007

Cited by 52 publications

(52 citation statements)

References 31 publications

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“…These determinations assume that the depth of erosion was achieved instantaneously or over a short period of time. In low intensity runoff events, rills and shallow gullies would likely erode gradually to shallow depths and produce sediment with an upland signature, while in high-intensity runoff events, thicker layers would likely be eroded especially if erosion occurs as headcuts or knickpoints in the gullies (Bennett et al 2000;Wells et al 2009Wells et al , 2013, resulting in more channel-like signatures. Studies of the eight watersheds indicate that gully processes were not important on most of the watersheds and thus fine sediment contributions from gullies for the measured storms were likely insignificant.…”

Section: Figurementioning

confidence: 99%

Fine sediment sources in Conservation Effects Assessment Project watersheds

Wilson¹,

Kuhnle²,

Dabney³

et al. 2014

Journal of Soil and Water Conservation

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Section: Figurementioning

confidence: 99%

Fine sediment sources in Conservation Effects Assessment Project watersheds

Wilson¹,

Kuhnle²,

Dabney³

et al. 2014

Journal of Soil and Water Conservation

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“…Gullies are formed by the amputation of soil from narrow channels through the accretion of surface runoff, tends to fabricate more sediment loss than other forms of soil erosion such as overland flow [6][7][8][9]. Today, it is renowned as a major land degradation issue, causing both impacts on-site, through direct soil loss and off-site, through sediment deposition in downstream environments.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Factors Affecting Ephemeral Gully Development in Badland Topography: A Case Study at Garbheta Badland (Pashchim Medinipur,

Shit¹,

Bhunia²,

Maiti³

2013

IJG

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Gully erosion in the Paschim Medinipur district of West Bengal, India has been an issue of anxiety, formed by the amputation of soil from narrow channels through the accretion of surface runoff. Here, we attempted to investigate the erosion variability of gully in a micro catchment area, and also scrutinized the gully cross-sectional areas as distinct components of gully volumes. Twelve gullies were randomly selected in different slopes. To determine the geometric growth of the gully dimensions and soil loss, the initial length of gully, the width of the gully and depth of respective gullies was monitored in different seasons. Univariate analysis was conducted to measure the association between gully head retreat and vegetation coverage, slope, rainfall volume and runoff contributing area. We found strong and significant relation between the slope of gully head and linear retreat in the pre monsoon (p < 0.008) and post monsoon (p < 0.024) season respectively. Conversely, rainfall volume and gully head retreat showed a strong relationship in the pre monsoon (r = 0.80), monsoon (r = 0.66) and post-monsoon period (r = 0.94); while meager relationship was observed with rainfall intensity (r = 0.06). Results also illustrated that the overall retreat of gully head had very strong and positive relationship with the runoff contributing area (r = 0.89, p < 0.001), and maximum gully erosion was observed in the monsoon period (55.67%). These results indicate that slope, rainfall and runoff contributing area have a strong positive influence on gully erosion in Paschim Medinipur district, since the initiation of the gully.

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“…Gully erosion produces large volumes of sediment that are transported downstream with detrimental effects on water quality, reservoir capacity and floodplains (Bryan, 1990;Poesen et al, 2003;Wells et al, 2009Wells et al, , 2010. In any channel network, approximately half of the total length of channels lies with un-branched fingertip tributaries (i.e.…”

Section: Introductionmentioning

confidence: 99%

Mechanism of Gully-Head Retreat - A Study at Ganganir Danga, Paschim Medinipur, West Bengal

Shit¹,

Maiti²

2012

Ethiop. J. Env Stud & Manag

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Twenty three gully heads were randomly selected from a representative gully basin at Ganganir Danga, Paschim Medinipore West Bengal for understanding mechanism of gully head retreat. The study was made during June to September, 2011. Height and slope of gully heads, width at top and base of the gully head were monitored. Geotechnical properties of soil like cohesion and angle of internal frication, bulk density were measured to estimate shear stress and shear strength at gully head. Linear retreat of the gully heads was monitored by pegging technique. Depths of tension cracks were measured at regular interval. The study shows that, gully heads retreated at different rates ranging from 13 cm to 121 cm depending on instability factors. Gully heads are few times steeper than angle of internal friction that introduces instability. Alcove structure and plunge pools, developed at the bottom of gully heads, lead to formation of overhanging slope. Near vertical and overhanging slope of considerable height develop tension cracks leading to mass failure and gully head retreat. Number of instability factors is operating at the gully heads and no linear relation can be established between these factors and gully erosion.

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Morphodynamics of Headcut Development and Soil Erosion in Upland Concentrated Flows

Cited by 52 publications

References 31 publications

Fine sediment sources in Conservation Effects Assessment Project watersheds

Fine sediment sources in Conservation Effects Assessment Project watersheds

Assessment of Factors Affecting Ephemeral Gully Development in Badland Topography: A Case Study at Garbheta Badland (Pashchim Medinipur,

Mechanism of Gully-Head Retreat - A Study at Ganganir Danga, Paschim Medinipur, West Bengal

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