2015
DOI: 10.3368/er.33.3.303
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Evaluation of a Fine Sediment Removal Tool in Spring-fed and Snowmelt Driven Streams

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Cited by 5 publications
(10 citation statements)
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“…Other studies of gravel cleaning have recorded similar decreases in fine sediment content (e.g. Meyer et al 2008;Pulg et al 2013;Sepulveda et al 2015) and similar success has also been associated with gravel additions (Sarriquet et al 2007). However, despite the reduction in fines caused by jetting, the amount of subsurface sand in our study riffles on the River Great Ouse (17.7 %) remained above recommended levels; for example, they were above the 15 % threshold thought to detrimentally affect the early development of salmonid fishes (Kemp et al 2011;Kondolf 2000;O'Connor and Andrew 1998).…”
Section: Discussionsupporting
confidence: 77%
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“…Other studies of gravel cleaning have recorded similar decreases in fine sediment content (e.g. Meyer et al 2008;Pulg et al 2013;Sepulveda et al 2015) and similar success has also been associated with gravel additions (Sarriquet et al 2007). However, despite the reduction in fines caused by jetting, the amount of subsurface sand in our study riffles on the River Great Ouse (17.7 %) remained above recommended levels; for example, they were above the 15 % threshold thought to detrimentally affect the early development of salmonid fishes (Kemp et al 2011;Kondolf 2000;O'Connor and Andrew 1998).…”
Section: Discussionsupporting
confidence: 77%
“…Analysis of surface grain-size distributions during both riffle and patch scale assessments indicated that gravel jetting had a significant impact on the composition of surface spawning gravels by displacing finer sediments, which resulted in coarser, better-sorted sediments (significantly increased percentiles, mean and sorting). In comparison, Sepulveda et al (2015) quantified fewer significant alterations in surface percentiles (D50, D84) as a function of gravel restoration via modified suction dredging in North America, with a decrease in surface particle sizes following restoration.…”
Section: Discussionmentioning
confidence: 97%
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“…Restoration of subsurface conditions by removal of fine sediment to promote hyporheic exchange has been studied in the context of individual geomorphic features such as cross-vanes or steps (Herzog et al, 2015;Menichino, Ward, & Hester, 2014;Vaux, 1968;Ward et al, 2011). More recently, emerging technologies make reach-scale fine sediment removal a feasible restoration strategy to remediate sediment pollution of streambeds (Sepulveda, Layhee, Sutphin, & Sechrist, 2015;Sepulveda, Sechrist, & Marczak, 2014), which has been shown to allow deeper penetration of surface water into the stream bed (Merz, Setka, Pasternack, & Wheaton, 2004). Here, we assess the impact of fine sediment on reach-scale solute transport and transient storage.…”
Section: Introductionmentioning
confidence: 99%
“…These data were originally collected for other research objectives (e.g. Sepulveda et al 2015), so a limitation of using these data is an unbalanced study design. Only two streams were sampled annually for four years (2011-2014), while the remaining four streams were sampled for 1-3 years within this time period (Table 1).…”
Section: Methodsmentioning
confidence: 99%