2016
DOI: 10.1016/j.jhydrol.2016.09.010
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Modelling the future impacts of climate and land-use change on suspended sediment transport in the River Thames (UK)

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Cited by 126 publications
(82 citation statements)
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References 89 publications
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“…China by Ma, Lu, van Noordwijk, Li, and Xu (2014) and Dai, Yang, and Li (2009) showed that projected LUC governed changes in sediment yield. However, changes in temperature and precipitation can alter the pattern of the system response to LUC (Bussi, Dadson, Prudhomme, & Whitehead, 2016). Furthermore, agricultural management can significantly impact streamflow and more specifically sediment losses.…”
Section: Sediment Loadmentioning
confidence: 99%
“…China by Ma, Lu, van Noordwijk, Li, and Xu (2014) and Dai, Yang, and Li (2009) showed that projected LUC governed changes in sediment yield. However, changes in temperature and precipitation can alter the pattern of the system response to LUC (Bussi, Dadson, Prudhomme, & Whitehead, 2016). Furthermore, agricultural management can significantly impact streamflow and more specifically sediment losses.…”
Section: Sediment Loadmentioning
confidence: 99%
“…The interplay between geology, soil texture, topography, land use and climate change are noted as stimuli to the quantity of sediment loads generated within and transported out of watersheds [3,11]. Current studies indicate that sediment production and transport in watersheds are intrinsically linked to the synergic forces of climate and land use [12][13][14]. With the advent of climate change some proponents are of the view that increases in temperature and alterations in precipitation will affect the extent, frequency and magnitude of sediment fluxes [14][15][16].…”
Section: Introductionmentioning
confidence: 99%
“…In the past decade, a handful of studies have been conducted on the response of sediment dynamics to climate change on basins 10 2 -10 3 km 2 in drainage area (e.g., Bussi, Dadson, Prudhomme, & Whitehead, 2016;Herrero et al, 2017;Nunes, Seixas, & Pacheco, 2008). However, to the authors' knowledge, our study is the first to apply a distributed, physically based model to simulate monthly sediment dynamics within a 10 6 -to 10 7 -km 2 river basin under future climate scenarios.…”
Section: Discussionmentioning
confidence: 99%