Effects of river ice break‐up on organic‐matter dynamics and feeding ecology of aquatic insects

Blackadar, Ryan J.; Baxter, Colden V.; Davis, J. Michael; Harris, Hannah E.

doi:10.1002/rra.3585

Cited by 4 publications

(15 citation statements)

References 42 publications

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“…Filamentous green algae are likely the source of ALA, diatoms are likely the source of EPA, and terrestrial detritus is likely the source of LIN, the precursor to ARA of shredding invertebrates (Cummins et al, 1989). However, our findings contrast with previous studies of salmonfly diets which found a much greater dependence on autochthonous material, including diatoms and animal parts (Blackadar et al, 2020;Freilich, 1991;. Both seasonal and site-specific factors may contribute to the differences between our findings and previous studies.…”

Section: Discussioncontrasting

confidence: 98%

“…Salmonflies are often classified as shredders and presumed to consume allochthonous detritus. However, the few studies that have quantified salmonfly diets by gut content analysis indicate substantial variation in allochthony by location and season, with sometimes heavy reliance on autochthonous production (Blackadar et al, 2020;. In addition to traditional methods of gut content analysis, fatty acid (polyunsaturated fatty acid [PUFA]) composition of macroinvertebrate tissues can provide information on origins and quality of macroinvertebrate diets (Lau et al, 2009;Torres-Ruiz et al, 2007).…”

Section: Introductionmentioning

confidence: 99%

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Dietary composition and fatty acid content of giant salmonflies (Pteronarcys californica) in two Rocky Mountain rivers

et al. 2022

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Section: Discussioncontrasting

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Dietary composition and fatty acid content of giant salmonflies (Pteronarcys californica) in two Rocky Mountain rivers

et al. 2022

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“…Thus, it is important to consider how the hydrogeomorphic setting of river channels influences how ice develops on that template and influences underlying productivity patterns (e.g., relative balance of benthic vs. pelagic productivity). For instance, ice tends to form and break up later in larger, deeper channels as a result of their thermal inertia (Buffin-Bélanger et al, 2013;Turcotte et al, 2012) and lateral variation of ice duration across the channel is common, as ice tends to form earlier and break up later in shallow, higher residence time locations like off-channel areas, backwaters, or channel margins (Blackadar et al, 2020;Brown et al, 2011;Danks, 2007). Therefore, typically productive channel margins and backwaters will have limited light for longer periods during the winter, while along the thalweg or the main channel, the flow may be too turbulent for primary producer communities to establish (Uehlinger, 2006;Uehlinger & Naegeli, 1998; Figure 2).…”

Section: Ecosystem Energeticsmentioning

confidence: 99%

“…Though metabolism may be low during the winter months, either due to low temperature or light impediment from ice, annual productivity and metabolism often depend on the timing and length of the snow-covered season (Casson et al, 2012;Mulholland et al, 2009). In addition, winter ice breakup and freeze-up were shown to be a driving force in maintaining "good quality" algal biomass and subsequent insect diversity throughout the year (Blackadar et al, 2020). In contrast to the milder winters of deciduous headwater catchments, Arctic streams (above the Arctic Circle) experience long winters and are likely to completely freeze due to low sustained winter temperatures and reduced flow (Huryn et al, 2014;Shogren et al, 2020).…”

Section: Ecosystem Energeticsmentioning

confidence: 99%

The Ecology of River Ice

et al. 2021

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Many of the world's rivers are ice covered for a portion of the year. For instance, the largest database of river ice cover documents that more than half of all of Earth's large rivers are seasonally ice covered (Yang et al., 2020). Freshwater systems are losing ice rapidly, however (Sharma et al., 2019); global scale predictions of river ice cover show that by 2100, average ice duration will decrease by 16.7 days, decreasing linearly with increases in annual mean temperature (Yang et al., 2020). These global scale patterns are further confirmed by in situ river ice records (de Rham et al.

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“…Excess deposition of sediment in coarse substrates will cover and inundate the gravels, thereby eliminating the habitat where many invertebrates live [91][92][93][94]. Ice regimes in temperate rivers can also affect organic-matter dynamics and feeding ecology of aquatic insects [95].…”

Section: Ecological Considerationsmentioning

confidence: 99%

Effects of River-Ice Breakup on Sediment Transport and Implications to Stream Environments: A Review

Beltaos

Burrell²

2021

Water

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During the breakup of river ice covers, a greater potential for erosion occurs due to rising discharge and moving ice and the highly dynamic waves that form upon ice-jam release. Consequently, suspended-sediment concentrations can increase sharply and peak before the arrival of the peak flow. Large spikes in sediment concentrations occasionally occur during the passage of sharp waves resulting from releases of upstream ice jams and the ensuing ice runs. This is important, as river form and function (both geomorphologic and ecological) depend upon sediment erosion and deposition. Yet, sediment monitoring programs often overlook the higher suspended-sediment concentrations and loads that occur during the breakup period owing to data-collection difficulties in the presence of moving ice and ice jams. In this review paper, we introduce basics of river sediment erosion and transport and of relevant phenomena that occur during the breakup of river ice. Datasets of varying volume and detail on measured and inferred suspended-sediment concentrations during the breakup period on different rivers are reviewed and compared. Possible effects of river characteristics on seasonal sediment supply are discussed, and the implications of increased sediment supply are reviewed based on seasonal comparisons. The paper also reviews the environmental significance of increased sediment supply both on water quality and ecosystem functionality.

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Effects of river ice break‐up on organic‐matter dynamics and feeding ecology of aquatic insects

Cited by 4 publications

References 42 publications

Dietary composition and fatty acid content of giant salmonflies (Pteronarcys californica) in two Rocky Mountain rivers

Dietary composition and fatty acid content of giant salmonflies (Pteronarcys californica) in two Rocky Mountain rivers

The Ecology of River Ice

Effects of River-Ice Breakup on Sediment Transport and Implications to Stream Environments: A Review

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