Winter Ecology of Kokanee: Implications for Salmon Management

Steinhart, Geoffrey B.; Wurtsbaugh, Wayne A.

doi:10.1577/t02-135

Cited by 19 publications

(13 citation statements)

References 67 publications

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“…Ice cover and break-up may influence the quantity and quality of organic matter in river ecosystems. For instance, surface ice can decrease light available to primary producers (Steinhart & Wurtsbaugh, 2004), and anchor ice can displace macrophytes (Prowse, 2001b). Additionally, scour from ice break-up may not just temporarily remove primary producers, but stimulate them by providing a clean substrate for growth (Prowse & Culp, 2003).…”

mentioning

confidence: 99%

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

Blackadar

Baxter

Davis

et al. 2020

River Research & Apps

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Disturbance shapes the structure and function of aquatic communities and ecosystems, but the dynamics of ice are a less studied dimension of the disturbance‐regime of rivers. We investigated effects of a river‐ice regime on organic‐matter dynamics and feeding ecology of aquatic insects. Samples of biofilm and aquatic insects for gut content analysis were collected monthly from Big Creek, a sixth ‐ order tributary of the Middle Fork Salmon River in central Idaho, USA, during winter 2010–2011. Our results indicate that river ice affects both quantity and quality of organic matter available to, and used by, consumers. Specifically, scour from December and February ice break‐up events reduced biofilm biomass by one‐half and one‐third, respectively, whereas quality (chlorophyll‐a: ash‐free dry mass) increased. Diets of scrapers, Rhithrogena (Heptageniidae) and Bibiocephala (Blephariceridae), collector‐gatherers, Baetis (Baetidae), and collector‐filterers, Simulium (Simulidae) appeared to follow patterns of organic matter. Following ice break‐up events, diets of these taxa had increased proportions of diatom frustules, which are high‐quality food resources due to their relatively high nutrient content. Other taxa, such as collector‐gatherers, non‐Tanypodinae (Chironomidae), and the collector‐filterer, Arctopsyche grandis (Hydropsychidae), consistently consumed high proportions of diatom frustules and insect material, respectively, suggesting they were able to feed more selectively throughout winter. Our study indicates that ice regimes in temperate rivers can affect organic‐matter dynamics and feeding ecology of aquatic insects, a possibility that deserves additional investigation, particularly in light of potential changes to the ice regimes of rivers with changing climate.

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mentioning

confidence: 99%

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

Blackadar

Baxter

Davis

et al. 2020

River Research & Apps

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“…In Revelstoke Reservoir (British Columbia, Canada), the density of kokanee near the dam increases particularly during periods of prolonged turbine operation in the winter, possibly due to advection [29]. Furthermore, kokanee usually occur in habitats with high light intensity during the winter [30,31]. Relatively high light intensity may occur near the powerhouse of hydropower reservoirs in the late fall and winter due to the effect of turbineinduced flows in preventing or inhibiting formation of thick ice cover.…”

Section: Discussionmentioning

confidence: 99%

Behavioral attributes of turbine entrainment risk for adult resident fish revealed by acoustic telemetry and state-space modeling

Martins

Gutowsky

Harrison

et al. 2014

Animal Biotelemetry

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Background: Fish entrainment through turbine intakes is one of the major issues for operators of hydropower facilities because it causes injury and/or mortality and adversely affects population abundance. Entrainment reduction strategies have been developed based on the behavior of downstream migrating fishes, particularly diadromous species. However, knowledge of the behavior of migratory fishes has very limited application for reducing the entrainment of resident fishes, including several species that represent important recreational and aboriginal fishery resources in reservoirs. In this study, we used fine-scale acoustic telemetry and state-space modeling to investigate behavioral attributes associated with entrainment risk of resident adult bull trout (Salvelinus confluentus) in a large hydropower reservoir in British Columbia, Canada. Results: We found that adult bull trout resided longer in the vicinity of the powerhouse and moved closer to the turbine intakes in the fall and particularly in the winter. Bull trout were more likely to engage in exploratory behavior (characteristic of foraging or reduced activity) during periods when their body temperature was lower or higher than 6°C. We also detected diel changes in behavioral attributes, with bull trout distance to intakes and probability of exploratory behavior slightly increasing at night.

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“…This would allow juvenile kokanee to enter the winter months at a relatively high maintenance level thus surviving at higher rates than pre-fertilization conditions. In support of this theory, Steinhart and Wurtsbaugh (2003) discuss the importance and critical nature of lipid content when they measured juvenile kokanee mortality during the winter months in Stanley Lake, Utah. Decline in Okanagan Lake kokanee survival rates is suspected to be due to poor quality phytoplankton (blue-greens) with low fatty acid content consumed by cladocerans that are in turn utilized by juvenile kokanee (Andrusak et al 2004b).…”

Section: Lake Fertilization and Status Of Gerrard Rainbow Troutmentioning

confidence: 92%

“…Abundance of Arrow Lakes Reservoir kokanee has increased from about 3 million to nearly 12 million in 2003. Actual mechanisms involved in increased survival of kokanee in both Arrow Reservoir and Kootenay Lake has not been investigated but there is growing evidence that high lipid content in macrozooplanktors (e.g., daphnids) is critically important to juvenile kokanee survival (Rae and Ashley in Andrusak et al 2004b;Steinhart and Wurtsbaugh 2003).…”

Section: Lake Fertilization and Status Of Gerrard Rainbow Troutmentioning

confidence: 99%

Kootenay Lake Fertilization Experiment; Years 11 and 12, Technical Report 2002-2003.

Schindler¹

2007

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Winter Ecology of Kokanee: Implications for Salmon Management

Cited by 19 publications

References 67 publications

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

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

Behavioral attributes of turbine entrainment risk for adult resident fish revealed by acoustic telemetry and state-space modeling

Kootenay Lake Fertilization Experiment; Years 11 and 12, Technical Report 2002-2003.

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