Effects of river temperature and climate warming on stock-specific survival of adult migrating Fraser River sockeye salmon (Oncorhynchus nerka)

Martins, Eduardo G.; Hinch, Scott G.; Patterson, David A.; Hague, Merran J.; Cooke, Steven J.; Miller, Kristina M.; Lapointe, Michael F.; English, Karl K.; Farrell, Anthony P.

doi:10.1111/j.1365-2486.2010.02241.x

Cited by 155 publications

(155 citation statements)

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“…During the same period, careless environmental practices in agriculture, forestry, mining, and construction impacted water quality and salmon habitat in parts of the Fraser River watershed (Evenden 2004). While the Fraser River remains one of the most productive salmon rivers in the world, old problems are being exacerbated by new threats from climate change, as warming river waters place increased physiological stress on migrating salmon and enhance vulnerability to infection and disease (Farrell et al 2008;Martins et al 2011).…”

Section: Perceived Threats To Salmon In the Fraser River Systemmentioning

confidence: 99%

Getting past the blame game: Convergence and divergence in perceived threats to salmon resources among anglers and indigenous fishers in Canada’s lower Fraser River

Nguyen

Young

Hinch

et al. 2016

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This article examines threat perception as a potential dimension of inter-group conflict over salmon fisheries in Canada's Fraser River watershed. Environmental changes and the entry of new user groups are putting pressure on both the resource and regulators, as well as threatening to exacerbate conflicts, notably between First Nation (indigenous) fishers and non-indigenous recreational anglers. While resource conflicts are often superficially conceptualized as cases of competing interests, we build on recent studies suggesting that conflicts are associated with deeper cognitive and perceptual differences among user groups. We report findings from 422 riverbank interviews with First Nation fishers and recreational anglers focusing on perceptions of threat to the fisheries. Responses reveal both substantial agreement and disagreement in threat perceptions between the two groups. These patterns provide a potential roadmap for consensus building, and suggest possible avenues for policy-makers to defuse the ''blame game'' that often dominates this type of conflict.

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Section: Perceived Threats To Salmon In the Fraser River Systemmentioning

confidence: 99%

Getting past the blame game: Convergence and divergence in perceived threats to salmon resources among anglers and indigenous fishers in Canada’s lower Fraser River

Nguyen

Young

Hinch

et al. 2016

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“…Extreme Tw can stress or ultimately prove lethal to biota (e.g. Dallas & Rivers-Moore 2012; Martins et al 2011) although some fauna can deploy avoidance strategies and/or acclimate to high temperatures (Breau et al 2011;Cox & Rutherford, 2000;Geist et al 2011). Nonetheless, sub-lethal Tw can still impact on spawning and breeding, hatching, growth, behaviour, distribution and phenology, thereby altering population structure and dynamics (Durance and Ormerod, 2007;Thackeray et al 2010;Ward & Stanford 1982).…”

Section: Introductionmentioning

confidence: 99%

Nocturnal river water temperatures: Spatial and temporal variations

Wilby

Johnson

Toone

2014

Science of The Total Environment

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Nocturnal water temperature (Tw) affects the behaviour of aquatic biota and metabolism of whole rivers. However, night-time water temperature (nTw) is poorly understood because spot samples are typically taken during daylight hours, or Tw series are aggregated in ways that mask sub-daily properties. This paper examines 15-minute measurements of Tw and air temperature (Ta) collected at 36 sites in the Rivers Dove and Manifold, English Peak District.Data were stratified by day and night then analysed using hysteresis, auto-correlation and logistic regression techniques. Daily hysteresis loops show lagged responses between nTw and previous daylight air temperatures (dTa), plus the influence of groundwater and discharge variations. Logistic regression models were modified using a seasonal factor and explained between 80 to 94% of the variance in daily maximum nTw; minimum nTw were predicted with less skill, particularly for headwater sites in summer. Downstream variations in model parameters also reflect the influence of groundwater and/or riparian shade, and prevailing weather conditions. A case is presented where an intense summer storm resulted in the propagation of a thermal wave that produced maximum Tw at some sites during hours of darkness. Hence, our findings show that Tw management by riparian shade has to be seen in a catchment wide context, with anticipated benefits normalised for weather variability, extreme rainfall events, local influence of groundwater, and channel structures.Keywords: Water temperature; logistic regression; hysteresis curve; thermal wave; riparian shade; river management. 3 INTRODUCTIONAmbient water temperature (Tw) regulates the photosynthesis of aquatic plants and the metabolism of cold-blooded piokilotherms, including fish, amphibians and aquatic invertebrates (Berry & Björkman 1980; Farrell 2009). Extreme Tw can stress or ultimately prove lethal to biota (e.g. Dallas & Rivers-Moore 2012;Martins et al. 2011) although some fauna can deploy avoidance strategies and/or acclimate to high temperatures (Breau et al. 2011;Cox & Rutherford, 2000; Geist et al. 2011). Nonetheless, sub-lethal Tw can still impact on spawning and breeding, hatching, growth, behaviour, distribution and phenology, thereby altering population structure and dynamics (Durance and Ormerod, 2007; Thackeray et al. 2010;Ward & Stanford 1982). There is evidence that Tw is rising in response to climate and environmental drivers, such as land-use change, land-drainage and modification of riparian vegetation (Broadmeadow et al. 2011;Langan et al., 2001;Malcolm et al., 2008;Webb, 1996). Consequently, there have been calls to manage rivers in ways that mitigate temperature increases to 'buy time' for ecosystems to adapt (Hansen et al., 2003;Wilby et al., 2010) whilst achieving other co-benefits (see for example: Nõges et al., 2010).To date, nocturnal water temperatures (nTw) have received relatively little if any explicit attention (see for example the review of Webb et al. [2008]). This is because spot Tw measurem...

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“…With a further increase of 2-4°C estimated for the Fraser River by the end of this century (Morrison et al, 2002;Hague et al, 2011;Martins et al, 2011), many Pacific salmonids may begin to encounter brief periods of summer water temperatures exceeding 24°C during their upriver migration to spawning grounds. While most other Fraser River salmon species will likely have to modify migration timing to avoid peak summer temperatures, adapt to the warmer conditions, or perish, the present data indicate that both sexes of Harrison River pink salmon will retain >92% of maximal aerobic scope and >83% of maximal cardiac scope at 24°C and therefore may hold an advantage over other salmonids with future river warming.…”

Section: Implications In a Warming Climatementioning

confidence: 99%

“…This burden is becoming progressively worse, as the peak summer temperature of the Fraser River has warmed by around 2°C over the last 60 years and it is now more common for summer-migrating species to encounter temperatures exceeding 20°C (Patterson et al, 2007;Farrell et al, 2008). Probably as a result, high river temperatures have been associated with extreme (>70%) en route mortality in species such as sockeye salmon that have summer-migrating populations Farrell et al, 2008;Mathes et al, 2010;Martins et al, 2011). While many species are of increasing conservation concern, pink salmon have maintained steady populations despite their migration period including summer months, and there is little evidence of significant en route mortality in this species (PSC, 2009) (M. Lapointe, Pacific Salmon Commission, personal communication).…”

Section: Introductionmentioning

confidence: 99%

Exceptional aerobic scope and cardiovascular performance of pink salmon (Oncorhynchus gorbuscha) may underlie resilience in a warming climate

Clark

Jeffries

Hinch

et al. 2011

Journal of Experimental Biology

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SUMMARYLittle is known of the physiological mechanisms underlying the effects of climate change on animals, yet it is clear that some species appear more resilient than others. As pink salmon (Oncorhynchus gorbuscha) in British Columbia, Canada, have flourished in the current era of climate warming in contrast to other Pacific salmonids in the same watershed, this study investigated whether the continuing success of pink salmon may be linked with exceptional cardiorespiratory adaptations and thermal tolerance of adult fish during their spawning migration. Sex-specific differences existed in minimum and maximum oxygen consumption rates (M O2,min and M O2,max , respectively) across the temperature range of 8 to 28°C, reflected in a higher aerobic scope (M O2,max -M O2,min ) for males. Nevertheless, the aerobic scope of both sexes was optimal at 21°C (T opt ) and was elevated across the entire temperature range in comparison with other Pacific salmonids. As T opt for aerobic scope of this pink salmon population is higher than in other Pacific salmonids, and historic river temperature data reveal that this population rarely encounters temperatures exceeding T opt , these findings offer a physiological explanation for the continuing success of this species throughout the current climate-warming period. Despite this, declining cardiac output was evident above 17°C, and maximum attainable swimming speed was impaired above ~23°C, suggesting negative implications under prolonged thermal exposure. While forecasted summer river temperatures over the next century are likely to negatively impact all Pacific salmonids, we suggest that the cardiorespiratory capacity of pink salmon may confer a selective advantage over other species.

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Effects of river temperature and climate warming on stock-specific survival of adult migrating Fraser River sockeye salmon (Oncorhynchus nerka)

Cited by 155 publications

References 53 publications

Getting past the blame game: Convergence and divergence in perceived threats to salmon resources among anglers and indigenous fishers in Canada’s lower Fraser River

Getting past the blame game: Convergence and divergence in perceived threats to salmon resources among anglers and indigenous fishers in Canada’s lower Fraser River

Nocturnal river water temperatures: Spatial and temporal variations

Exceptional aerobic scope and cardiovascular performance of pink salmon (Oncorhynchus gorbuscha) may underlie resilience in a warming climate

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