Diel vertical migration in the Lake Superior pelagic community. II. Modeling trade-offs at an intermediate trophic level

Jensen, Olaf P.; Hrabik, Thomas R.; Martell, Steven J. D.; Walters, Carl J.; Kitchell, James F.

doi:10.1139/f06-125

Cited by 72 publications

(104 citation statements)

References 56 publications

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“…2c), like that of Lake Superior, inhabited deeper water than the lean, and was fatter than the lean as evidenced by its lower percentage buoyancy. The high fat levels in Lake Superior siscowets are hypothesized to be an adaptation for reducing the energetic cost of extensive vertical migration (Henderson and Anderson 2002;Hrabik et al 2006;Jensen et al 2006). A siscowet-like, fat (low percent buoyancy) lake charr was not observed by the author during field surveys of the McTavish (northeast) arm of Great Bear Lake during 2004.…”

Section: Background On Formsmentioning

confidence: 92%

Differentiation of deep-water lake charr Salvelinus namaycush in North American lakes

Eshenroder

2007

Environ Biol Fish

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Deep-water morphs of lake charr, Salvelinus namaycush, are found, with one exception, in four of the largest lakes in the world: lakes Superior and Mistassini (QC) and Great Bear and Slave lakes. This paper advances a hypothesis for resource polymorphisms involving two types of deepwater morph, one of which is characteristic of the humper and the other of the siscowet charrs of Lake Superior. My hypothesis states that, first, the humper, or a humper-like morph, diverged postglacially in sympatry from the ancestral common (shallow-water) lake charr and became a feeding specialist on Mysis relicta. Second, in at least two of the four lakes the siscowet, or a siscowet-like charr, diverged as a feeding specialist on postglacially derived forms of deep-water ciscoes. In Lake Superior a successional process may have resulted in dominance of the siscowet at the expense of the humper charr. I concur with a previous inference that the one occurrence of a deep-water charr in a small lake (the above exception) represents emigration from Lake Superior. I further infer that this event involved an early humper charr, which implies that this morphotype had differentiated in Lake Superior in less than 1,900 year. I suggest that innate differences in plasticity, breeding behavior and assortive mating, and philopatry account for why Arctic charr isolate readily in small lakes whereas lake charr do not. My hypothesis assumes divergence of deep-water morphs occurred postglacially, an idea consistent with genetic and biogeographical evidence.

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Section: Background On Formsmentioning

confidence: 92%

Differentiation of deep-water lake charr Salvelinus namaycush in North American lakes

Eshenroder

2007

Environ Biol Fish

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“…The most frequently observed pattern is for smaller individuals to select for warmer, higher light habitats than larger adults, particularly in those systems in which the largest members of the population are at the highest risk of planktivorous fish predation (Lythgoe, 1979) or in those species with high rates of cannibalism (Bonnet et al, 2004;Eiane and Ohman, 2004). Smaller individuals also typically maximize growth rates at higher temperatures than their adult counterparts (e.g., Fiksen and Giske, 1995); thus, the ratio between mortality risk and growth gains in juveniles tends to be minimized at depths nearer to the surface than adults (e.g., Clark and Levy, 1988;Jensen et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

Laboratory-derived light and temperature preferences of juvenile mysid shrimp, Mysis diluviana

Boscarino¹,

Rudstam²,

Minson³

et al. 2010

Journal of Great Lakes Research

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“…Werner & Gilliam 1984) to mortality risk (μ). Ratios between gain and risk have been used to predict both the timing and amplitude of migration in a variety of fish (Scheuerell & Schindler 2003, Jensen et al 2006) and invertebrate species (Fiksen 1997, Liu et al 2003). These models assume that an organism will always choose a depth that minimizes the ratio between growth gains and perceived mortality risks.…”

Section: Introductionmentioning

confidence: 99%

Importance of light, temperature, zooplankton and fish in predicting the nighttime vertical distribution of Mysis diluviana

Boscarino¹,

Rudstam²,

Eillenberger³

et al. 2009

Aquat. Biol.

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The opossum shrimp Mysis diluviana (formerly M. relicta) performs large amplitude diel vertical migrations in Lake Ontario and its nighttime distribution is influenced by temperature, light and the distribution of its predators and prey. At one location in southeastern Lake Ontario, we measured the vertical distribution of mysids, mysid predators (i.e. planktivorous fishes) and mysid prey (i.e. zooplankton), in addition to light and temperature, on 8 occasions from May to September, 2004 and. We use these data to test 3 different predictive models of mysid habitat selection, based on: (1) laboratoryderived responses of mysids to different light and temperature gradients in the absence of predator or prey cues; (2) growth rate of mysids, as estimated with a mysid bioenergetics model, given known prey densities and temperatures at different depths in the water column; (3) ratio of growth rates (g) and mortality risk (μ) associated with the distribution of predatory fishes. The model based on light and temperature preferences was a better predictor of mysid vertical distribution than the models based on growth rate and g:μ on all 8 occasions. Although mysid temperature and light preferences probably evolved as mechanisms to reduce predation while increasing foraging intake, the response to temperature and light alone predicts mysid vertical distribution across seasons in Lake Ontario.

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Diel vertical migration in the Lake Superior pelagic community. II. Modeling trade-offs at an intermediate trophic level

Cited by 72 publications

References 56 publications

Differentiation of deep-water lake charr Salvelinus namaycush in North American lakes

Differentiation of deep-water lake charr Salvelinus namaycush in North American lakes

Laboratory-derived light and temperature preferences of juvenile mysid shrimp, Mysis diluviana

Importance of light, temperature, zooplankton and fish in predicting the nighttime vertical distribution of Mysis diluviana

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