Energetic Status of Alaskan Chinook Salmon: Interpopulation Comparisons and Predictive Modeling Using Bioelectrical Impedance Analysis

Courtney, Kristin R.; Falke, Jeffrey A.; Cox, M. Keith; Nichols, Jeff

doi:10.1002/nafm.10398

Cited by 4 publications

(7 citation statements)

References 39 publications

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“…This allows homeward migrating adults to reach spawning grounds and spawn at a time that optimizes emergence timing of offspring with prey availability (Brannon 1987;Boatright et al 2004;Quinn 2018). For example, populations and species that spawn in locations far inland or at high elevations tend to migrate earlier in the season than populations spawning closer to the coast (Hodgson and Quinn 2002;Brannon et al 2004;Quinn 2018;Courtney et al 2020). Similarly, species and populations spawning at higher latitudes typically spawn earlier than populations in more southern latitudes, consistent with the idea that relatively cool temperatures during embryo incubation require more development time than warm environments (Sandercock 1991).…”

mentioning

confidence: 73%

“…In general, Coho Salmon migration timing takes place in the late fall (Sandercock 1991;Quinn 2018). Tag date, used as a proxy for entrance timing, did not distinguish whether a Coho Salmon entering the Buskin River would migrate to the upper tributaries or remain in the main stem, counter to the general assumption that earlier arriving fish travel further (Hodgson and Quinn 2002;Brannon et al 2004;Quinn 2018;Courtney et al 2020). It seems there is little advantage of arriving early to the Buskin River watershed as we observed the entire migration from lower weir to the lake in the upper watershed can be accomplished in a single day by at least some individuals (mean days between entry and Buskin Lake was 17).…”

Section: Discussionmentioning

confidence: 97%

“…Past studies on river systems larger than the Buskin River have shown a tendency for Pacific salmon that return earlier to natal streams to travel greater distances to spawn (Burger et al 1985;Clark et al 2015;Eiler et al 2015;Courtney et al 2020). In general, Coho Salmon migration timing takes place in the late fall (Sandercock 1991;Quinn 2018).…”

Section: Discussionmentioning

confidence: 99%

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Assessing Potential Stock Structure of Adult Coho Salmon in a Small Alaska Watershed: Quantifying Run Timing, Spawning Locations, and Holding Areas with Radiotelemetry

Stratton

Finkle

Falke

et al. 2021

N American J Fish Manag

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Run timing and spatial locations of spawning habitats are often used to identify stocks for conservation planning or management of salmonid fishes. Although complex stock structure is most common within large watersheds with diverse habitats, even small drainages can produce multiple co-occurring spatially or temporally isolated populations or "stocks." This project sought to address the potential existence of stock structure of Coho Salmon Oncorhynchus kisutch in a small coastal watershed on Kodiak, Alaska that supports vital subsistence and recreational fisheries and is currently managed as a single stock. We radio-tagged a total of 348 adult Coho Salmon upon freshwater entry into the Buskin River across three spawning seasons (2015-2017) and tracked in-river movements to the final locations where mortality signals were recorded. We identified two primary spawning habitats within the system: main-stem and lake tributaries, with 54% (range of 47% to 61%) of tagged fish with determined fates tracked to main-stem river spawning areas and 46% (range 39% to 53%) presumably spawning in small tributaries of the 1-km 2 Buskin Lake at the headwater of the watershed. Despite distinct spatial differences in spawning locations, main-stem and tributary spawners did not differ in migration timing into freshwater (difference in run timing of main-stem versus tributary spawners = 1 d) nor body size (main-stem mean body length, mideye to tail fork = 625 mm, tributary mean = 613 mm). Unexpectedly, we determined nearly 70% of all Coho Salmon spent at least some time in Buskin Lake, including 54% of main-stem spawners, suggesting a potential role of Buskin Lake as an important staging habitat for premature migrating adult Coho Salmon who enter freshwater in advance of final maturation. We also identified areas consistently used for holding prior to spawning that could be used in spatial management planning and during times of necessary conservation to ensure integrity of the stock for the future.

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confidence: 73%

Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

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Assessing Potential Stock Structure of Adult Coho Salmon in a Small Alaska Watershed: Quantifying Run Timing, Spawning Locations, and Holding Areas with Radiotelemetry

Stratton

Finkle

Falke

et al. 2021

N American J Fish Manag

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“… 11 ). Fortunately, new tools exist—such as microwave energy meters (fat meters)—which can provide rapid and accurate estimates of lipid content/energy density 28 – 31 . Microwave fat meters measure water content and use the inverse relationship between water and lipid content to estimate lipid content 29 , 31 .…”

Section: Introductionmentioning

confidence: 99%

Seasonal variation in the lipid content of Fraser River Chinook Salmon (Oncorhynchus tshawytscha) and its implications for Southern Resident Killer Whale (Orcinus orca) prey quality

Lerner

Hunt

2023

Sci Rep

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In Southern British Columbia (BC), Canada, declines in southern resident killer whale (SRKW—Orcinus orca) populations have been linked to declines in numbers and average size of their preferred prey, Chinook salmon (Oncorhynchus tshawytscha). However, the life history diversity of Chinook suggests that there is a need to assess stock-specific differences in energy density to evaluate prey quality as a factor in SRKW declines. In this study, we calibrated a Distell fat meter to estimate Chinook whole-body lipid content, a proxy for energy density. The fat meter was deployed at the Fraser River, BC, Chinook test fishery during 2020, collecting lipid, weight, and length measurements from 1566 genetically stock identified individuals encompassing all major Fraser River Chinook population units (management units, MUs) at river entry. We found that MU-specific lipid content increased with distance and elevation to spawning grounds and was highest in the Spring-52 (12.8%) and Summer-52 (12.7%) MUs, intermediate in the Summer-41 MU (10.8%), and lowest in the Fall-41 MU (7.3%). Lipid content also decreased by up to 6 percentage points within MUs from the beginning to end of their migration period. Our data revealed SRKWs’ most endangered prey sources, the Spring-52 and Summer-52 MUs, are also its most energy rich. It also indicated SRKWs have access to progressively lower energy density Chinook through the year, requiring up to ~ 30% more fish to meet energy demands in the fall than in the spring.

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“…However, the energy density and percentage of lipid composition of subsistence fishes that occur along the Arctic coast of Alaska are poorly documented, hindering our ability to assess such changes. Many studies (e.g., Trudel et al 2005;Courtney et al 2020) have focused on Pacific salmon Oncorhynchus spp., a universally used food fish throughout the north, but other fishes (e.g., Dolly Varden Salvelinus malma and whitefishes [Coregoninae]) can be harvested in greater amounts in the Arctic because the abundance of spawning salmon populations diminishes in the northerly direction (Nielsen and Ruggerone 2013). Furthermore, salmon are largely harvested during seasonal pulses, whereas other species are more consistently available.…”

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confidence: 99%

Energy Condition of Subsistence‐Harvested Fishes in Arctic Coastal Lagoons

et al. 2021

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In Arctic Alaska, Indigenous and rural residents depend on wildharvested foods for sustenance and the subsistence lifestyle is integral to their culture. Marine and diadromous fishes, which often occupy coastal lagoon habitats, are relied upon for subsistence harvest, particularly Pacific salmon, whitefishes (Coregoninae), cods (Gadidae), and flounder species (Pleuronectidae). However, little research has been conducted that assesses the energetic condition of these fishes, which are harvested by the tens of thousands annually. The effects of accelerating climate change and human development on the metabolic rates, diet, body condition, and energy density of fish is of great concern because these effects will, in turn, affect the people who depend on these species for food security. Consequently, we characterized energy density and percentage of lipid, water, and protein content of 10 fish species in four coastal lagoons within Cape Krusenstern National Monument, Alaska. We found that whitefishes, particularly Bering Cisco Coregonus laurettae and Least Cisco C. sardinella exhibited the highest energy density, percentage of lipid, and percentage of protein content, significantly greater than that of marine cod and flounder species, Fourhourn Sculpin Myoxocephalus quadricornis, freshwater Pond Smelt Hypomesus olidus, and values from other regional species that have been in published literature. Additionally, when the relative mean abundance and body weight of each species was taken into account, total energy value by availability in the lagoons was highest for whitefishes when compared with marine taxa and the freshwater Pond Smelt. Given the impending effects of climate change and coastal construction in the region, it will be important to monitor the energy condition of lagoon fishes to ensure their quality and availability for subsistence harvesters.

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Energetic Status of Alaskan Chinook Salmon: Interpopulation Comparisons and Predictive Modeling Using Bioelectrical Impedance Analysis

Cited by 4 publications

References 39 publications

Assessing Potential Stock Structure of Adult Coho Salmon in a Small Alaska Watershed: Quantifying Run Timing, Spawning Locations, and Holding Areas with Radiotelemetry

Assessing Potential Stock Structure of Adult Coho Salmon in a Small Alaska Watershed: Quantifying Run Timing, Spawning Locations, and Holding Areas with Radiotelemetry

Seasonal variation in the lipid content of Fraser River Chinook Salmon (Oncorhynchus tshawytscha) and its implications for Southern Resident Killer Whale (Orcinus orca) prey quality

Energy Condition of Subsistence‐Harvested Fishes in Arctic Coastal Lagoons

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