2021
DOI: 10.1002/2688-8319.12103
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Artificial flood reduces fine sediment clogging enhancing hyporheic zone physicochemistry and accessibility for macroinvertebrates

Abstract: 1. River regulation globally has reduced the riverine connectivity (longitudinal, lateral and vertically) with significant consequences for their abiotic and biotic components. To restore the ecological integrity of regulated rivers, artificial floods are increasingly being employed in large-scale flow restoration efforts. Despite considerable recognition regarding the ecological and geomorphological effects of artificial floods on benthic habitats, understanding the implications for the hyporheic zone is esse… Show more

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Cited by 12 publications
(8 citation statements)
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“…The biostabilization of sediments creates stable habitat patches which may act as refugia for invertebrates during high flow events (Cardinale et al, 2004; Lancaster, 2000). However, reduced gravel movement may also result in increased rates of fine sediment clogging, as high flows may be less able to rework surface material and reduce colmation (Mathers et al, 2021; McKenzie et al, 2022). This can alter stream bed processes through many mechanisms (reviewed in Wharton et al, 2017), with potentially deleterious impacts for macrophytes (Jones, Murphy et al, 2012), diatoms (Jones et al, 2014), macroinvertebrates (Jones, Collins et al, 2012), and fish (Kemp et al, 2011).…”
Section: Discussionmentioning
confidence: 99%
“…The biostabilization of sediments creates stable habitat patches which may act as refugia for invertebrates during high flow events (Cardinale et al, 2004; Lancaster, 2000). However, reduced gravel movement may also result in increased rates of fine sediment clogging, as high flows may be less able to rework surface material and reduce colmation (Mathers et al, 2021; McKenzie et al, 2022). This can alter stream bed processes through many mechanisms (reviewed in Wharton et al, 2017), with potentially deleterious impacts for macrophytes (Jones, Murphy et al, 2012), diatoms (Jones et al, 2014), macroinvertebrates (Jones, Collins et al, 2012), and fish (Kemp et al, 2011).…”
Section: Discussionmentioning
confidence: 99%
“…60 s to suspend surface fine sediment into the water column before a 50 ml water sample was taken. Samples were routinely processed in the laboratory for mineral content and converted to mass per m 2 using water depths in the stilling well (Mathers et al, 2021b). For each site, the geometric mean of the four samples was taken as the surface fine sediment content measure.…”
Section: Stream Bed Characteristicsmentioning
confidence: 99%
“…Wharton et al. (2017) refer to colmation as a “pernicious problem” because it can: (a) impede surface‐groundwater fluxes (Nowinski et al., 2011; Partington et al., 2017); (b) affect streambed stability (Dallmann et al., 2021); (c) affect biogeochemical processes (Mathers et al., 2021), and (d) influence various ecological processes (Brunke & Gonser, 1997; Harvey & Gooseff, 2015; Nogaro et al., 2010). Indeed, many cases of sandy streambed clogging have been reported recently (Datry et al., 2015; Korus et al., 2020; Shrivastava et al., 2020).…”
Section: Introductionmentioning
confidence: 99%
“…For studies on bed mobility, the focus is often on the physical structure of the channel or on the morphology at the interface between the water and the sediments (Ashley, 1990; Leopold, 1994). However, streambed mobilization and re‐deposition can either increase (Cui et al., 2021; Mathers et al., 2021; Wu et al., 2015) or decrease (Dallmann et al., 2021; Teitelbaum et al., 2021) the hydraulic conductivity of the bed, depending on the specific conditions at the sites. Streambeds containing coarse bed material episodically move only during infrequent events.…”
Section: Introductionmentioning
confidence: 99%