Macro- and micro-geographic variation in pantophysin (PanI) allele frequencies in NE Atlantic cod Gadus morhua

Case, R. A. J., Hutchinson, W. F., Hauser, L., van Oosterhout, C. and Carvalho, G. R. (2005) Macro- and micro-geographic variation in pantophysin (PanI) allele frequencies in NE Atlantic cod Gadus morhua. Marine Ecology Progress Series, 301. pp. 267-278. ISSN 0171-8630

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Abstract

Using samples of Atlantic cod Gadus morhua L. from the North Sea, and previously published genetic data from the Irish and Celtic Seas, Iceland, and Norwegian fjord and offshore populations, we describe striking macro- and micro-geographic patterns in pantophysin (PanI) allele frequencies. The relatively abrupt discontinuity in PanI allele frequency distribution at 2 different locations is not congruent with standard patterns of isolation by distance and could arise from population admixtures, historical or contemporary natural selection, behavioural segregation or a combination of these factors. Here, we examined the relationships between the distributions of PanI alleles and temperature, salinity and depth. In the northeast Atlantic, temperature was highly correlated with PanI allele frequency, even when the effect of geographic distance was removed. In the Norwegian fjords, partial Mantel tests indicated that temperature, salinity and depth all had a significant effect on PanI allele frequency in juvenile fish. However, a sample from the brackish waters of the eastern Baltic Sea suggested that salinity may be linked to PanI allele frequency distribution and that the relationship with temperature was weaker in areas of low salinity. Strong correlations between PanI allele frequencies and key environmental variables, together with evidence from the available literature, suggested that environmental conditions play an important role in determining the distribution of different PanI genotypes. The combined use of environmental data, PanI genotyping and neutral markers may provide a valuable approach to examine local adaptation, levels of gene flow and stock structuring.

Item Type:	Article
Faculty \ School:	Faculty of Science > School of Environmental Sciences
UEA Research Groups:	Faculty of Science > Research Centres > Centre for Ecology, Evolution and Conservation
Depositing User:	Rachel Snow
Date Deposited:	25 Feb 2011 10:24
Last Modified:	28 Mar 2025 04:10
URI:	https://ueaeprints.uea.ac.uk/id/eprint/24913
DOI:	10.3354/meps301267

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