2012
DOI: 10.1002/ece3.196
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Concurrent habitat and life history influences on effective/census population size ratios in stream‐dwelling trout

Abstract: Lower effective sizes (Ne) than census sizes (N) are routinely documented in natural populations, but knowledge of how multiple factors interact to lower Ne/N ratios is often limited. We show how combined habitat and life-history influences drive a 2.4- to 6.1-fold difference in Ne/N ratios between two pristine brook trout (Salvelinus fontinalis) populations occupying streams separated by only 750 m. Local habitat features, particularly drainage area and stream depth, govern trout biomass produced in each stre… Show more

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Cited by 44 publications
(67 citation statements)
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“…These results suggest that published estimates of effective population size obtained with random samples of individuals of mixed ages for iteroparous species with overlapping generations and even those based on unadjustedN b can be biased, and should thus be considered with caution. As seen in other studies [15][16][17], we also found thatN eðadj2Þ /N c ratios were variable across populations in the same geographical area, ranging from a high of 0.29 (CY) to a low of around 0.01 (e.g. CV, TB).…”
Section: Discussionsupporting
confidence: 88%
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“…These results suggest that published estimates of effective population size obtained with random samples of individuals of mixed ages for iteroparous species with overlapping generations and even those based on unadjustedN b can be biased, and should thus be considered with caution. As seen in other studies [15][16][17], we also found thatN eðadj2Þ /N c ratios were variable across populations in the same geographical area, ranging from a high of 0.29 (CY) to a low of around 0.01 (e.g. CV, TB).…”
Section: Discussionsupporting
confidence: 88%
“…Resident salmonid populations inhabiting small streams generally exhibit relatively short generation times, facilitating the study of the relationship between effective and census population sizes. Recent studies have produced variable estimates of N b /N c for stream brook trout populations, with large differences among studies as well as among populations within studies in these ratios [15][16][17]. The differences have been linked to differences in habitat variability and habitat quality, which in turn result in differences in census population size and potentially also in life-history traits such as age and size at maturation, and age-specific survival or reproductive lifespan [15,17].…”
Section: Introductionmentioning
confidence: 99%
“…positive logarithmic; Bellows, ), but did not support our initial prediction that mortality would increase exponentially after habitat saturation. Thus, it is unlikely that space was a limiting factor in our experimental sites (Grant & Kramer, ), perhaps because food abundance is low in Cape Race (Belmar‐Lucero et al, ; Hutchings, ). In their review of density‐dependent growth across salmonid species, the high frequency of logarithmic density‐dependent growth led Grant and Imre () to suggest that stream‐dwelling populations are regulated by density‐dependent growth at low densities and density‐dependent mortality at higher densities.…”
Section: Discussionmentioning
confidence: 99%
“…Consequently, boulder coverage may contribute to weakening density‐dependent growth in populations that exhibit a strong boulder gradient, such as FW (Figure ). Conversely, starvation and stress are assumed to be the main causes of mortality in our streams due to the low food abundance and negligible predation risk (Belmar‐Lucero et al, ; Hutchings, ). Thus, increasing temperature and flow may increase mortality rates by increasing energetic costs (Smith & Li, ; Utz & Hartman, ), while acidic pH is a well‐known driver of mortality in brook trout of this system (Yates, ).…”
Section: Discussionmentioning
confidence: 99%
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