Responses of benthic algal communities and their traits to experimental changes in fine sediments, nutrients and flow

Neif, Érika Maria; Graeber, Daniel; Rodrigues, Liliana; Rosenhøj-Leth, Simon; Jensen, Tinna M.; Wiberg‐Larsen, Peter; Landkildehus, Frank; Riis, Tenna; Baattrup‐Pedersen, Annette

doi:10.1111/fwb.12965

Cited by 22 publications

(21 citation statements)

References 51 publications

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“…A number of studies involving benthic diatom assemblages or algal communities have related community changes to abiotic factors other than water quality. The relationship between diatoms and river discharge has been demonstrated (Molloy, 1992;Passy, 2001;Neif et al, 2017) and a number of studies on river regulation have related diatom assemblage changes to flow alteration (Peterson, 1986;Growns, 1999;Cibils Martina, Principe & Gari, 2013). Taxa within the low-profile guild are likely to thrive in frequently disturbed habitats, whereas high-profile taxa are typically prevalent in conditions with little physical disturbance (Passy, 2007;Stenger-Kovács et al, 2013).…”

Section: Possible Drivers Of Diatom Assemblage Changesmentioning

confidence: 99%

“…The influence of temperature on diatom assemblages has also been reported (Bergey, Desianti & Cooper, 2017), and thermal alteration by impoundment has been shown to induce changes to assemblage composition within a short time-period (Blinn, Truitt & Pickart, 1989). In addition, the relationship between diatom motility and fine sediment has been demonstrated, although some studies indicated that there may be confounding effects of other environmental pressures (Jones et al, 2014;Neif et al, 2017;Jones et al, 2017).…”

Section: Possible Drivers Of Diatom Assemblage Changesmentioning

confidence: 99%

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Diatoms as indicators of the effects of river impoundment at multiple spatial scales

Krajenbrink

Acreman

Dunbar

et al. 2019

PeerJ

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River impoundment constitutes one of the most important anthropogenic impacts on the World’s rivers. An increasing number of studies have tried to quantify the effects of river impoundment on riverine ecosystems over the past two decades, often focusing on the effects of individual large reservoirs. This study is one of the first to use a large-scale, multi-year diatom dataset from a routine biomonitoring network to analyse sample sites downstream of a large number of water supply reservoirs (n = 77) and to compare them with paired unregulated control sites. We analysed benthic diatom assemblage structure and a set of derived indices, including ecological guilds, in tandem with multiple spatio-temporal variables to disclose patterns of ecological responses to reservoirs beyond the site-specific scale. Diatom assemblage structure at sites downstream of water supply reservoirs was significantly different to control sites, with the effect being most evident at the regional scale. We found that regional influences were important drivers of differences in assemblage structure at the national scale, although this effect was weaker at downstream sites, indicating the homogenising effect of river impoundment on diatom assemblages. Sites downstream of reservoirs typically exhibited a higher taxonomic richness, with the strongest increases found within the motile guild. In addition, Trophic Diatom Index (TDI) values were typically higher at downstream sites. Water quality gradients appeared to be an important driver of diatom assemblages, but the influence of other abiotic factors could not be ruled out and should be investigated further. Our results demonstrate the value of diatom assemblage data from national-scale biomonitoring networks to detect the effects of water supply reservoirs on instream communities at large spatial scales. This information may assist water resource managers with the future implementation of mitigation measures such as setting environmental flow targets.

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Section: Possible Drivers Of Diatom Assemblage Changesmentioning

confidence: 99%

Section: Possible Drivers Of Diatom Assemblage Changesmentioning

confidence: 99%

Diatoms as indicators of the effects of river impoundment at multiple spatial scales

Krajenbrink

Acreman

Dunbar

et al. 2019

PeerJ

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“…This suggests that algal biomass accumulation was extremely limited once TSS levels exceeded the threshold. Algae growing in systems that are beyond the TSS threshold are likely highly tolerant to sedimentation and may be more resistant to sediment scour (Francoeur & Biggs, 2006;Neif et al, 2017) or have the ability to photo-acclimate to low-light conditions (Hill, Ryon, & Schilling, 1995;Rhee & Gotham, 1981). Van Nieuwenhuyse and LaPerriere (1986) saw a 50% decrease in primary production in streams in the interior highlands of Alaska at levels of 200 mg/L TSS.…”

mentioning

confidence: 99%

Sediment inputs from retrogressive thaw slumps drive algal biomass accumulation but not decomposition in Arctic streams, NWT

2018

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Increasing rates of precipitation and higher air temperatures have increased the size and frequency of retrogressive thaw slumps—large depressions of thawed permafrost that form on the landscape—in north‐western Canada. Many of these thaw slumps flow into nearby stream systems, leading to increased sediment, solute and nutrient loads. We evaluated the impacts of retrogressive thaw slumps on measurements of algal biomass accumulation and decomposition of organic materials in streams in the Peel Plateau, Northwest Territories. We predicted that increased sediment loads from thaw slumps would decrease algal standing stock and decomposition in thaw slump‐impacted streams, overriding the potential positive effects of increased nutrient concentrations. Chl‐a measurements were obtained as a proxy for algal standing stock from sites upstream and downstream of thaw slumps by performing algae scrapes and deploying artificial substrates in 2014. Cotton strips were deployed at upstream and downstream sites in 2013 and 2014, and tensile strength was measured to assess breakdown. Grab water samples were taken to measure physical and chemical parameters at each site. Thaw slumps increased total suspended solids, but not dissolved nutrients at downstream sites. Our results indicated a significant negative relationship between Chl‐a and total suspended solids. Decomposition indicated a negative relationship with total suspended solids, but displayed much stronger positive relationships with temperature, pH and dissolved phosphorus. Our findings indicated that total suspended solids were a stronger driver of change in thaw slump‐impacted stream reaches than nutrients, although nutrients may be more influential during the initiation of thaw slump disturbances. Algal biomass accumulation was found to be more sensitive to thaw slump impacts than decomposition, which may lead to a functional and structural shift in favour of allochthonous‐based food webs over autochthonous ones at thaw slump‐impacted stream reaches.

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“…A number of studies involving benthic diatom assemblages or algal communities have related community changes to abiotic factors other than water quality. The relationship between diatoms and river discharge has been demonstrated (Molloy, 1992;Passy, 2001;Neif et al, 2017) and a number of studies on river regulation have related diatom assemblage changes to flow alteration (Peterson, 1986;Growns, 1999;Cibils Martina et al, 2013). Taxa within the low-profile guild are likely to thrive in frequently disturbed habitats, whereas high-profile taxa are typically prevalent in conditions with little physical disturbance (Passy, 2007;Stenger-Kovács et al, 2013).…”

Section: Possible Drivers Of Diatom Assemblage Changesmentioning

confidence: 99%

“…The influence of temperature on diatom assemblages has also been reported (Bergey et al, 2017), and thermal alteration by impoundment has been shown to induce changes to assemblage composition within a short time-period (Blinn et al, 1989). In addition, the relationship between diatom motility and fine sediment has been demonstrated, although some studies indicated that there may be confounding effects of other environmental pressures (Jones et al, 2014;Neif et al, 2017;Jones et al, 2017).…”

Section: Possible Drivers Of Diatom Assemblage Changesmentioning

confidence: 99%

Peer Review #1 of "Diatoms as indicators of the effects of river impoundment at multiple spatial scales (v0.1)"

2019

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River impoundment constitutes one of the most important anthropogenic impacts on the World's rivers. An increasing number of studies have tried to quantify the effects of river impoundment on riverine ecosystems over the past two decades, often focusing on the effects of individual large reservoirs. This study is one of the first to use a large-scale, multi-year diatom dataset from a routine biomonitoring network to analyse sample sites downstream of a large number of water supply reservoirs (n = 77) and to compare them with paired unregulated control sites. We analysed benthic diatom assemblage structure and a set of derived indices, including ecological guilds, in tandem with multiple spatiotemporal variables to disclose patterns of ecological responses to reservoirs beyond the site-specific scale. Diatom assemblage structure at sites downstream of water supply reservoirs was significantly different to control sites, with the effect being most evident at the regional scale. We found that regional influences were important drivers of differences in assemblage structure at the national scale, although this effect was weaker at downstream sites, indicating the homogenising effect of river impoundment on diatom assemblages. Sites downstream of reservoirs typically exhibited a higher taxonomic richness, with the strongest increases found within the motile guild. In addition, Trophic Diatom Index (TDI) values were typically higher at downstream sites. Water quality gradients appeared to be an important driver of diatom assemblages, but the influence of other abiotic factors could not be ruled out and should be investigated further. Our results demonstrate the value of diatom assemblage data from national-scale biomonitoring networks to detect the effects of water supply reservoirs on instream communities at large spatial scales. This information may assist water resource managers with the future implementation of mitigation measures such as setting environmental flow targets.

show abstract

Responses of benthic algal communities and their traits to experimental changes in fine sediments, nutrients and flow

Cited by 22 publications

References 51 publications

Diatoms as indicators of the effects of river impoundment at multiple spatial scales

Diatoms as indicators of the effects of river impoundment at multiple spatial scales

Sediment inputs from retrogressive thaw slumps drive algal biomass accumulation but not decomposition in Arctic streams, NWT

Peer Review #1 of "Diatoms as indicators of the effects of river impoundment at multiple spatial scales (v0.1)"

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