Impact of environmental temperature on Atlantic cod Gadus morhua energy allocation to growth, condition and reproduction

Morgan, M. J.; Rideout, Rick M.; Colbourne, Eugene

doi:10.3354/meps08502

Cited by 31 publications

(20 citation statements)

References 49 publications

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“…Similarly, down-regulation was highest in 2011 for both the GOM and SNE stocks. Interannual variations in fecundity has frequently been related to environmental conditions, feeding, or both (Horwood et al, 1989;Kjesbu and Witthames, 2007;Morgan et al, 2010;Skjaeraasen et al, 2006), therefore synchrony across stocks in certain years may indicate larger scale (regional) forcing of environmental conditions. However, PAF was not synchronized among regions in all years (i.e.…”

Section: Within Stock Variation In Fecunditymentioning

confidence: 99%

Spatial and annual variation in fecundity and oocyte atresia of yellowtail flounder, Limanda ferruginea, in U.S. waters

McElroy

Wuenschel

Towle

et al. 2016

Journal of Sea Research

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Section: Within Stock Variation In Fecunditymentioning

confidence: 99%

Spatial and annual variation in fecundity and oocyte atresia of yellowtail flounder, Limanda ferruginea, in U.S. waters

McElroy

Wuenschel

Towle

et al. 2016

Journal of Sea Research

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“…For example, numerous studies have demonstrated that temperature has a profound effect on the physiology of fish larvae (Pörtner & Farrell 2008). Temperature influences the rates of metabolic processes that govern energetics linked to growth, reproduction, immune competence and behaviour (Houde 1989, Batty & Blaxter 1992, Morgan et al 2010, Pörtner & Peck 2010. Moreover, the influence of temperature on the physics of the environment and the subsequent impact on its organisms may be substantial.…”

Section: Environmental Variability and The Survival Of Fish Larvaementioning

confidence: 99%

Bottom-up effects of climate on fish populations: data from the Continuous Plankton Recorder

Pitois¹,

Lynam²,

Jansen³

et al. 2012

Mar. Ecol. Prog. Ser.

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“…Several studies have shown that temperature plays a crucial role in fish reproductive biology (Donelson et al 2010, Morgan et al 2010, Pankhurst & Munday 2011, including sperm physiology (reviewed by Alavi & Cosson 2005). However, the way in which an individual's environmental history and genetic background shape the effect of temperature on reproductive performance has remained unclear.…”

Section: Discussionmentioning

confidence: 99%

“…Third, distinct populations show multi-gene patterns of temperaturerelated variation indicative of adaptation to local thermal regimes (Bradbury et al 2010, Behrens et al 2012. Fourth, several studies suggest potential temperature effects on cod reproductive performance (Kjesbu et al 2010, Morgan et al 2010, Purchase et al 2010. Fifth, Atlantic cod sperm biology has been well researched, providing a good basis by which to design experiments to test for thermal responses (Trippel & Morgan 1994a, Skjaeraasen et al 2009, Purchase et al 2010.…”

Section: Introductionmentioning

confidence: 97%

Sperm plasticity to seawater temperatures in Atlantic cod Gadus morhua is affected more by population origin than individual environmental exposure

Beirão¹,

Purchase²,

Wringe³

et al. 2014

Mar. Ecol. Prog. Ser.

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Atlantic cod is a key species of the North Atlantic ecosystem whose distribution will likely be affected by climate change. Although general temperature effects on reproduction are known, there is a dearth of information on population and individual level life history and reproductive plasticity responses to temperature change. We tested the hypothesis that the sperm of Atlantic cod of different genetic backgrounds (southern versus more northerly Newfoundland and Labrador) and of different environmental histories (reared in indoor tanks and fed a forage diet versus reared in sea cages and fed pellets) have different average plastic responses to temperature. Male reproductive performance was examined at 4 temperatures by measuring sperm swimming characteristics at 10 and 30 s after motility activation. Genetic origin had a larger effect on sperm swimming characteristics than past environmental history. Moreover, groups derived from the southern population exhibited a more pronounced positive mean reaction norm than the group derived from the Newfoundland and Labrador population. This represents an example of cogradient variation as genotypes accentuate the thermal phenotypic plasticity. Even though there were differences between the groups in sperm swimming characteristics, this is unlikely sufficient to affect successful reproduction at the temperatures tested unless under sperm competition. Thus, sperm performance should not be a limiting factor for reproduction under predicted increases in sea surface temperatures.Resale or republication not permitted without written consent of the publisher Editorial responsibility: Stylianos Somarakis,

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Impact of environmental temperature on Atlantic cod Gadus morhua energy allocation to growth, condition and reproduction

Cited by 31 publications

References 49 publications

Spatial and annual variation in fecundity and oocyte atresia of yellowtail flounder, Limanda ferruginea, in U.S. waters

Spatial and annual variation in fecundity and oocyte atresia of yellowtail flounder, Limanda ferruginea, in U.S. waters

Bottom-up effects of climate on fish populations: data from the Continuous Plankton Recorder

Sperm plasticity to seawater temperatures in Atlantic cod Gadus morhua is affected more by population origin than individual environmental exposure

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