2013
DOI: 10.1111/1365-2656.12117
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Spatial variation buffers temporal fluctuations in early juvenile survival for an endangered Pacific salmon

Abstract: Summary1. Spatial, phenotypic and genetic diversity at relatively small scales can buffer species against large-scale processes such as climate change that tend to synchronize populations and increase temporal variability in overall abundance or production. This portfolio effect generally results in improved biological and economic outcomes for managed species. Previous evidence for the portfolio effect in salmonids has arisen from examinations of time series of adult abundance, but we lack evidence of spatial… Show more

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Cited by 42 publications
(53 citation statements)
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“…Our estimate of metapopulation structure for the Snake River spring/summer Chinook salmon evolutionarily significant unit (ESU), based on all available information, was congruent with previous findings (ICTRT , , Thorson et al. , Jorgensen et al. ).…”
Section: Discussionsupporting
confidence: 91%
“…Our estimate of metapopulation structure for the Snake River spring/summer Chinook salmon evolutionarily significant unit (ESU), based on all available information, was congruent with previous findings (ICTRT , , Thorson et al. , Jorgensen et al. ).…”
Section: Discussionsupporting
confidence: 91%
“…A high microscale variability of interstitial water conditions during egg development was previously detected (Malcolm et al 2009; Sternecker et al 2013b) and seems to be characteristic of the hyporheic zone of most stream ecosystems (Braun et al 2012). Such variation at small spatial scales was recently described to buffer temporal fluctuations in early juvenile survival in Pacific Chinook salmon (Thorson et al 2014). Substratum depth in our study was limited to 150 mm, hence deeper zones with a potential flow-through of oxygen rich ground water was not considered resulting in a possible underestimation of hatching success (Peterson and Quinn 1996b).…”
Section: Discussionmentioning
confidence: 90%
“…Such an adverse synergistic effect of stream substrate degradation and increased water temperature on salmonids was detected in our study and found to be species-specific. It is likely to be driven by variable and scale-dependent physicochemical and genetic impacts (Sternecker et al 2013b; Thorson et al 2014). Consequently, there is no general solution for the support of declining salmonid populations, as restoration concepts have to consider specific conditions of the river (stretch) to be restored as well as specific demands of the target species.…”
Section: Discussionmentioning
confidence: 99%
“…Variability in juvenile size, timing and habitat use during downstream migration to the ocean ensures that some component of the population in dynamic environments experiences favorable riverine, estuarine, and ocean conditions (Beechie et al 2006;Sattherthwaite et al 2014). The extent to which fish have access to spatially diverse habitats influences their rate of growth, movement, and phenotypic diversity, and has been shown to stabilize inter-annual variation in juvenile production (Thorson et al 2014 (Miller et al 2010;Sturrock et al 2015). Understanding the survival of SRWRC rearing in the Delta was identified as one of the largest empirical data gaps in the development of the NMFS SRWRC life-cycle model (Hendrix et al 2014;Perry et al 2016).…”
Section: Application Examplesmentioning
confidence: 99%