Timing of Atlantic cod Gadus morhua seasonal migrations in relation to serum levels of gonadal and thyroidal hormones

Comeau, Luc A.; Campana, Steven E.; Chouinard, Ghislain A.; Hanson, John Mark

doi:10.3354/meps221245

Cited by 28 publications

(11 citation statements)

References 38 publications

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“…1995 and references therein). Finally, large males moult from March to June in the NGSL (Sainte-Marie & Hazel 1992, Lovrich et al 1995 and from February to April in the SGSL (Hébert et al 2002), when most cod are outside the GSL (Hanson 1996, Ouellet et al 1997, Comeau et al 2001. A low incidence of large soft-shell male snow crabs in cod stomachs from the SGSL was confirmed by the analysis of 1887 additional cod stomachs collected from April to June of 2000 to 2003 (J. M. Hanson unpubl.…”

Section: Cod and Snow Crab Predator-prey Size Relationshipmentioning

confidence: 91%

“…Only 20.5% of sets and 23.5% of stomachs were sampled in October or later in the NGSL. Similarly, 5.1% of sets and 10.7% of stomachs were sampled in or after October in the SGSL (Table A3 in the Appendix), when the migration of cod out of the area already is well underway (Hanson 1996, Comeau et al 2001). Therefore, it is possible that the scarcity of Instar I snow crab in cod stomachs simply reflected low availability to cod because of lack of temporal overlap.…”

Section: Cod and Snow Crab Predator-prey Size Relationshipmentioning

confidence: 99%

“…1). Both stocks leave the GSL in late autumn and spend the winter months in the Laurentian Channel, south of Newfoundland and east of Nova Scotia (Chouinard & Fréchet 1994, Swain et al 1998, Castonguay et al 1999, Comeau et al 2001). Snow crab is abundant in both the NGSL and SGSL, sustaining important and lucrative fisheries.…”

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confidence: 99%

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Atlantic cod and snow crab predator–prey size relationship in the Gulf of St. Lawrence, Canada

Chabot¹,

Sainte‐Marie²,

Briand³

et al. 2008

Mar. Ecol. Prog. Ser.

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Present address: SPC Headquarters, BP D5, 98848 Noumea Cedex, 95 Promenade Roger Laroque, Anse Vata, New Caledonia ABSTRACT: Atlantic cod Gadus morhua stomach contents (n = 30 973, including 28 377 non-empty stomachs) and morphometric measurements on live snow crab Chionoecetes opilio and cod were examined to assess the predator-prey relationship between these 2 species. The most common snow crab instars found in cod stomachs were III and V (~6 to 8 and ~12 to 16 mm carapace width [CW], respectively) in the northern Gulf of St. Lawrence (GSL) and VI and VII (~17 to 23 and ~23 to 31 mm CW, respectively) in the southern GSL. A significant positive relationship was found between cod length and the largest and smallest CW of snow crab ingested by cod. Positive relationships were also found between gape width and body length in cod and between 3 measures of size (maximum span, width at rest, length at rest) and CW in snow crab. Snow crab length at rest was closely related to cod gape width, suggesting that the largest snow crab ingested by cod must be attacked from the side. There appears to be a plateau at 65.1 mm in the relationship between maximum snow crab CW and cod length, caused by the absence of large (adolescent and adult) male snow crab in cod stomachs. Other studies have found recently moulted, soft-shell snow crabs in cod stomachs, but this appears to be rare. Thus, snow crabs are susceptible to predation by cod mostly for the first 4 yr of postsettlement in the GSL. Any effect of cod predation on the snowcrab fishery would be felt 6 to 11 yr later, given growth models established for the GSL. KEY WORDS: Chionoecetes opilio · Gadus morhua · Gape width · Prey selection Resale or republication not permitted without written consent of the publisherMar Ecol Prog Ser 363: [227][228][229][230][231][232][233][234][235][236][237][238][239][240] 2008 instance, snow crabs are stenothermic and are found in greatest numbers at bottom-water temperatures between -1 and 4°C (Slizkin 1982, Squires 1990). Therefore, changes in water temperature are likely to result in changes in crab abundance and habitat range (Tremblay 1997, Sainte-Marie & Gilbert 1998, Orensanz et al. 2004. Interactions between climate and physical oceanography can also influence food supply as well as larval production, distribution and survival (Rosenkranz et al. 2001, Zheng & Kruse 2006.Many authors have proposed that predation can also influence distribution and abundance of snow crab. It has been hypothesized that cod (Gadus morhua in the Atlantic, G. macrocephalus in the Pacific) can regulate snow crab populations (Bailey 1982, Tremblay 1997, Orensanz et al. 2004. Two studies suggest the increase in the biomass and geographic range of snow crab observed in the 1990s in eastern Canada was due to the collapse of Atlantic cod stocks, which was presumed to result in a major reduction in total predation mortality for the snow crab populations (Worm & Myers 2003. However, studies based solely on correlations are insufficient to demonstrate top-down ...

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Section: Cod and Snow Crab Predator-prey Size Relationshipmentioning

confidence: 91%

Section: Cod and Snow Crab Predator-prey Size Relationshipmentioning

confidence: 99%

See 1 more Smart Citation

Atlantic cod and snow crab predator–prey size relationship in the Gulf of St. Lawrence, Canada

Chabot¹,

Sainte‐Marie²,

Briand³

et al. 2008

Mar. Ecol. Prog. Ser.

Self Cite

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show abstract

“…Since gonadal recrudescence in southern Gulf cod begins in autumn (Schwalme and Chouinard, 1999;Comeau et al, 2001), an obvious advantage for leaving summer grounds as quickly as possible could be the enhancement of gonadal development in warm slope waters (see Hutchings and Myers, 1994). On the other hand, it does not appear that cod are capable of returning into the Gulf sooner the following spring, given the presence of ice (Fréchet, 1990) and cold waters described earlier.…”

Section: Implications Of Earlier Autumn Migrationsmentioning

confidence: 99%

Timing of Atlantic cod (Gadus morhua L.) seasonal migrations in the southern Gulf of St Lawrence: interannual variability and proximate control

Comeau

Campana

Chouinard

2002

ICES Journal of Marine Science

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The objective of this study was to identify likely proximate cues to the seasonal migrations of cod, Gadus morhua L., in the southern Gulf of St Lawrence. We computed a migration timing index across several years using commercial fishery and sentinel survey (1995)(1996)(1997)(1998)(1999) catch rate data, and closely monitored the seasonal changes in temperature, dissolved oxygen, food intake, and energy stores between 1995 and 1998. The inter-year variability in the timing of the seasonal migrations was relatively low (s.d.=8 d for spring migration, 10 d for autumn migration), suggesting that photoperiod was involved in the control mechanism of migration. However, other factors were also implicated in the control mechanism, given that cod initiated the autumn migration progressively earlier in the late 1980s and 1990s. At the onset of the autumn migration, dissolved oxygen concentrations were above levels known to induce avoidance behaviour in this species, and food resources were considered to be relatively abundant. Similarly, cod did not initiate the autumn migration at a specific temperature or following a particular temperature regime experienced during summer. However, cross correlation function analysis indicated that a widespread cooling of near bottom waters preceded the mid-1980s shift in migration timing by one to two years, suggesting that the cooling event was linked in some way to the change in migration dates. Other correlations showed that the earlier migrations coincided with older cod becoming more abundant and smaller in size, and also with their principal fish prey (herring and capelin) increasing in number. These results suggest that older cod played a key role in launching the early autumn migrations. One plausible interpretation is that their decline in body size and lipid-rich diets led to a rapid build up of energy reserves over summer grounds, and thus to an earlier readiness to engage in the autumn migration. We discuss the potential impact of earlier departures on stock productivity.

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“…These variations are associated with seasonal climate changes, thermal regime of water bodies, photoperiodism, breeding cycle (Cyr and Eales, 1996;Pavlidis et al, 2000;Eales, 2006), and migration (Baggerman, 1962;Comeau et al, 2001;Kitano et al, 2012). Although THs are involved in regulation of many physiological processes, serum TH concentrations positively correlate mainly with temperature during the annual cycle (Bau and Parent, 2000;Abbas et al, 2012;Bolotovskiy and Levin, 2015).…”

Section: Introductionmentioning

confidence: 93%

Discovery of latitudinal gradient of triidothyronine concentrations in ectotherms as revealed from a cyprinid fish, the common roach Rutilus rutilus

Левин

Bolotovskiy

2015

Biochemical Systematics and Ecology

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Timing of Atlantic cod Gadus morhua seasonal migrations in relation to serum levels of gonadal and thyroidal hormones

Cited by 28 publications

References 38 publications

Atlantic cod and snow crab predator–prey size relationship in the Gulf of St. Lawrence, Canada

Atlantic cod and snow crab predator–prey size relationship in the Gulf of St. Lawrence, Canada

Timing of Atlantic cod (Gadus morhua L.) seasonal migrations in the southern Gulf of St Lawrence: interannual variability and proximate control

Discovery of latitudinal gradient of triidothyronine concentrations in ectotherms as revealed from a cyprinid fish, the common roach Rutilus rutilus

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