Influences of Freshwater and Marine Growth on the Egg Size–Egg Number Tradeoff in Coho and Chinook Salmon

Quinn, Thomas P.; Vøllestad, Leif Asbjørn; Peterson, Jeramie; Gallucci, Vincent F.

doi:10.1577/t03-032

Cited by 60 publications

(62 citation statements)

References 42 publications

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“…We acknowledge, however, that not all fish species show the expected production of large progeny in growth-limited environments (e.g. Quinn et al 2004), suggesting that the generality of this pattern may not hold.…”

Section: Discussionmentioning

confidence: 86%

Diet and divergence of introduced smallmouth bass (Micropterus dolomieu) populations

Dunlop¹,

Orendorff²,

Shuter³

et al. 2005

Can. J. Fish. Aquat. Sci.

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We examine the degree and causes of divergence in growth and reproduction in two populations of smallmouth bass (Micropterus dolomieu) introduced a century ago. Despite a common source, the Provoking Lake population now has a higher population density and slower growing individuals than the Opeongo Lake population. Using this system, we test the predictions of life history theory that delayed maturation and reduced reproductive investment are expected in high density populations with slow individual growth rates. Observations on both populations run directly counter to the aforementioned expectations. Instead, Provoking males have smaller sizes and younger ages at nesting and higher gonad masses than Opeongo males; Provoking females have smaller sizes at maturity, larger egg sizes, and higher ovarian dry masses than Opeongo females. Temperature, food availability, diet ontogeny, young-of-the-year mortality, and adult mortality were examined as plausible contributors to the divergence. Results suggest that low food availability, likely caused or mediated by intraspecific competition for prey, and lack of large prey in the diet are contributing to the slow growth, increased reproductive investment, and higher mortality following reproduction in Provoking. This study provides insight into the processes that produce rapid divergence of life history in a species exhibiting parental care.

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Section: Discussionmentioning

confidence: 86%

Diet and divergence of introduced smallmouth bass (Micropterus dolomieu) populations

Dunlop¹,

Orendorff²,

Shuter³

et al. 2005

Can. J. Fish. Aquat. Sci.

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show abstract

“…Upon maturation, a fish must allocate large amounts of resources to reproductive organs. Fecundity and egg size may increase with the growth rate of later life stages as well as final body size of fully matured fish (Bromage et al 1992;Morita et al 1999;Shimoda 2001;Quinn et al 2004;Campbell et al 2006b). Because fecundity and egg size directly affect fitness (Einum andFleming 1999, 2000), females exhibiting poor growth prior to the breeding season may have reduced fitness (i.e., delayed maturation may be adaptive under conditions of poor growth during gonadal development).…”

Section: Discussionmentioning

confidence: 99%

Does Size Matter Most? The Effect of Growth History on Probabilistic Reaction Norm for Salmon Maturation

Morita

Fukuwaka

2006

Evolution

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Abstract. Body size is widely believed to affect the occurrence of sexual maturation. Recent studies have used changes in the age-specific body size at which the probability of maturing is 50%, a feature of probabilistic reaction norms, to quantify purported evolution of life histories. However, body size results from a combination of growth rates during successive developmental stages. Therefore, to understand the evolution of the maturation schedule, it is necessary to comprehend the relationships among body size, growth history, and maturation schedule. We examined the relationships among body size, previous growth history, and maturation probability in chum salmon (Oncorhynchus keta). In this study, previous growth history was estimated from yearly specific growth increments that provide information describing body size. Previous growth history was found to be more closely linked to maturation probability than body size. The most recent growth condition was the most important factor affecting whether a fish matured during the subsequent breeding season. Because individuals of similar body size and same age can have different growth histories, the relationship between body size and maturation probability could be plastically modified by growth history. This may violate an assumption required to infer evolution, namely that size-related maturation trends in probabilistic reaction norms are immune to growth history.

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“…This model or growth metrics derived from it have been applied to salmonids, including coho (e.g., Quinn et al 2004). Parabolic growth can be viewed as a special case of the general growth model proposed by Schnute (1981), whose other special cases include the von Bertalanffy model widely used in fisheries (Baker et al 1991).…”

Section: Study Sitementioning

confidence: 99%

Linking resource availability and habitat structure to stream organisms: an experimental and observational assessment

et al. 2014

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An experiment and a mark‐recapture field study of juvenile coho salmon (Oncorhynchus kisutch) were conducted to identify controls of key energy flow chains in river food webs. In the small‐scale experiment, we investigated the individual and interactive effects of physical habitat structure (PHS) as small wood and resource availability (tissue of adult Chinook salmon, O. tshawytscha) on nutrients, algae, invertebrates, and fish predators including juvenile coho. In the field, we quantified the effects of natural variation in prey availability (invertebrate drift biomass), PHS (wood), and local fish density on summer growth of juvenile coho across multiple stream reaches. Adding salmon tissue to experimental channels resulted in strong bottom‐up effects on select invertebrates including increased population biomass of chironomids and baetids, the numerically dominant invertebrates, and faster growth of juvenile coho. We link the enhanced growth of coho to chironomid productivity: for instance, adult chironomid flux was 4.3× higher and coho consumption of these animals 3× higher in salmon‐subsidized channels. PHS in experimental channels was associated with reduced algal biomass, potentially in response to increased invertebrate consumption, and invertebrate flux or export. The field study revealed coho growth was negatively related to PHS and total fish density and positively related to Diptera drift biomass; however, the effects of fish density and drift biomass on coho growth were relatively weak. The field study also indicated that prey resource availability and coho growth were associated with differences in canopy cover, with prey biomass and coho growth 2–4× higher in reaches receiving more sunlight. As in the experiment, coho in natural stream reaches predominantly fed on adult chironomids and other Diptera, indicating that these taxa and life‐stages are a key link between the benthic food web and mobile vertebrate predators. Our study showed that bottom‐up processes initiated by salmon subsidies and possibly light flux determined key trophic interactions in the Cedar River food web. Moreover, we speculate that PHS may modify some of these interactions indirectly through its effects on the movement of organisms through the environment.

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Influences of Freshwater and Marine Growth on the Egg Size–Egg Number Tradeoff in Coho and Chinook Salmon

Cited by 60 publications

References 42 publications

Diet and divergence of introduced smallmouth bass (Micropterus dolomieu) populations

Diet and divergence of introduced smallmouth bass (Micropterus dolomieu) populations

Does Size Matter Most? The Effect of Growth History on Probabilistic Reaction Norm for Salmon Maturation

Linking resource availability and habitat structure to stream organisms: an experimental and observational assessment

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