Spatial scale dependence of sediment dynamics in a gullied rolling loess region on the Loess Plateau in China

Fang, Haiyan; Li, Qiuyan; Qiangguo, Cai; Liao, Yuhong

doi:10.1007/s12665-010-0889-4

Cited by 30 publications

(14 citation statements)

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“…Rodriguez-Blanco et al [6] similarly found clockwise to be the dominant hysteresis pattern suggesting a localized sediment sources. In contrast to these findings, Fang et al [14] showed clockwise patterns at the hillslope plot scale and counterclockwise patterns at the basin scale suggesting a dominantly hillslope source at various spatial scales on the Loess Plateau of China. The difference in results between this work and Fang et al is likely because their site has some of the highest soil erosion rates in the world with an average annual sediment yield of 22,200 tons per km 2 and extremely steep slopes of up to 70 degrees [14].…”

Section: Resultsmentioning

confidence: 80%

“…In contrast to these findings, Fang et al [14] showed clockwise patterns at the hillslope plot scale and counterclockwise patterns at the basin scale suggesting a dominantly hillslope source at various spatial scales on the Loess Plateau of China. The difference in results between this work and Fang et al is likely because their site has some of the highest soil erosion rates in the world with an average annual sediment yield of 22,200 tons per km 2 and extremely steep slopes of up to 70 degrees [14]. In comparison, sediment yields in the central Sierra Nevada have been estimated to be around 4.1 tons per km 2 [3].…”

Section: Resultsmentioning

confidence: 80%

“…However, much of this work has been focused on individual discharge events [10][11][12], or has been in predominately agricultural areas [4,6,7,[11][12][13], in small hillslope plots [11] or in areas with drastically different physiographic and climatic regimes [7,14,15]. A few longer studies looking at multiple time scales have shown considerable temporal variation in sediment patterns.…”

Section: Introductionmentioning

confidence: 99%

“…They found that more sediment moved during the snow melt season than the rest of the year and that a shift from clockwise to counter-clockwise hysteresis patterns occurred as the snow melt season progressed. Fang et al [14] found differences in the sediment-discharge hysteresis patterns between the hillslope plot (clockwise) and small basin scales (counterclockwise) that implied a hillslope source area in the Loess Plateau of China. Headwater and larger order basins in southeast Australia were studied by Smith and Dragovich [17] who suggested that differences in sediment patterns were due to rates of sediment transfer to larger order basins.…”

Section: Introductionmentioning

confidence: 99%

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Seasonal Accumulation and Depletion of Local Sediment Stores of Four Headwater Catchments

Martin

Conklin

Bales

2014

Water

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Seasonal turbidity patterns and event-level hysteresis analysis of turbidity verses discharge in four 1 km 2 headwater catchments in California's Sierra Nevada indicate localized in-channel sediment sources and seasonal accumulation-depletion patterns of stream sediments. Turbidity signals were analyzed for three years in order to look at the relationships between seasonal turbidity trends, event turbidity patterns, and precipitation type to stream sediment production and transport. Seasonal patterns showed more turbidity events associated with fall and early to mid-winter events than with peak snow-melt. No significant turbidity patterns emerged for periods of snow melt vs. rain. Single event hysteresis loops showed clockwise patterns were dominant suggesting local sediment sources. In successive discharge events, the largest turbidity spike was often associated with the first but not necessarily the largest discharge event-indicating seasonal depletion of local sediment stores. In multi-peaked discharge events, hysteresis loops shifted from clockwise to linear or random patterns suggesting that localized sediment stores are being used up and sufficient flow energy must be reached to start entraining the more consolidated bank/bed sediment or that dominant sediment sources may be shifting to less localized areas such as hill slopes. A conceptual model with phases of accumulation and transport is proposed.

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Section: Resultsmentioning

confidence: 80%

Section: Resultsmentioning

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Seasonal Accumulation and Depletion of Local Sediment Stores of Four Headwater Catchments

Martin

Conklin

Bales

2014

Water

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“…During flood events, the relationship between sediment transport and discharge is not normally homogenous, often producing hysteretic loops (diCenzo and Luk, 1997; D'Agostino and Lenzi, 1999;Rickenmann, 2001;Seeger et al, 2004;Lefrancois et al, 2007;Rodríguez-Blanco et al, 2008;Soler et al, 2008;Mao et al, 2014), which have been identified between discharge and sediment transport on the Loess Plateau (Fang et al, 2008(Fang et al, , 2011(Fang et al, , 2015Fan et al, 2013). However, the role of hysteretic loops for check dams remains unclear.…”

Section: Introductionmentioning

confidence: 99%

Correlating check dam sedimentation and rainstorm characteristics on the Loess Plateau, China

Wei

2016

Geomorphology

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Enhanced hysteresis of suspended sediment transport in response to upstream damming: An example of the middle Yangtze River downstream of the Three Gorges Dam

Lyu

Fagherazzi

Shan

et al. 2020

Earth Surf Processes Landf

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The peak in sediment transport in alluvial rivers generally lags behind the peak in discharge. It is thus not clear how the hysteresis in the sediment/discharge relationship may be impacted by damming, which can fundamentally alter the water and sediment regimes in the downstream reaches of the river. In this study, a total of 500 flood events in the Yichang–Chenglingji Reach (YCR) of the Middle Yangtze River immediately downstream of the Three Gorges Dam (TGD) are analysed to study the impacts of dam operations on the hysteresis of suspended sediment transport. Sediment rating curves, hysteresis patterns, as well as lag times, are investigated to determine the relationship between suspended sediment concentration (SSC) and flow discharge (Q) at different temporal scales, from inter‐annual to individual flood events, for the pre‐ and post‐TGD period from 1992 to 2002 and from 2003 to 2017, respectively. The results showed that the TGD operation decreased the frequency and magnitude of floods. The decrease in peak flow and increase in base flow weakened the flood contribution to the annual discharge by nearly 20%. However, the relative suspended sediment load contribution during flood events was much higher than the discharge contribution, and was little impacted by the dam. At seasonal and monthly scales, more than 80% of the suspended sediment was transported by ~65% of the water discharge in the summer and early autumn. The monthly SSC–Q relationship changed from a figure‐eight to an anti‐clockwise pattern after the construction of the TGD. For single flood events, the TGD operations significantly modified the downstream SSC–Q hysteresis patterns, increasing the frequency of anti‐clockwise loops and the lag time between peak Q and peak SSC. These adjustments were mainly caused by differences in the propagation velocities of flood and sediment waves and the sediment ‘storage–mobilization–depletion’ process, whereas the influence of lateral diversions was small. © 2020 John Wiley & Sons, Ltd.

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Spatial scale dependence of sediment dynamics in a gullied rolling loess region on the Loess Plateau in China

Cited by 30 publications

References 38 publications

Seasonal Accumulation and Depletion of Local Sediment Stores of Four Headwater Catchments

Seasonal Accumulation and Depletion of Local Sediment Stores of Four Headwater Catchments

Correlating check dam sedimentation and rainstorm characteristics on the Loess Plateau, China

Enhanced hysteresis of suspended sediment transport in response to upstream damming: An example of the middle Yangtze River downstream of the Three Gorges Dam

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