Your search keyword '"Meldrup, Dorte"' showing total 6 results

1. Conserving marine biodiversity: insights from life-history trait candidate genes in Atlantic cod (Gadus morhua)

Author

Hemmer-Hansen, Jakob, Therkildsen, Nina Overgaard, Meldrup, Dorte, and Nielsen, Einar Eg

Published

2014

2. Historical DNA documents long-distance natal homing in marine fish.

Author

Bonanomi, Sara, Overgaard Therkildsen, Nina, Retzel, Anja, Berg Hedeholm, Rasmus, Pedersen, Martin Wæver, Meldrup, Dorte, Pampoulie, Christophe, Hemmer‐Hansen, Jakob, Grønkjær, Peter, and Nielsen, Einar Eg

Subjects

MARINE fishes, FISH DNA, FISH spawning, FISH ecology, ANIMAL homing, SINGLE nucleotide polymorphisms, FISHERY management

Abstract

The occurrence of natal homing in marine fish remains a fundamental question in fish ecology as its unequivocal demonstration requires tracking of individuals from fertilization to reproduction. Here, we provide evidence of long-distance natal homing (>1000 km) over more than 60 years in Atlantic cod ( Gadus morhua), through genetic analysis of archived samples from marked and recaptured individuals. Using a high differentiation single-nucleotide polymorphism assay, we demonstrate that the vast majority of cod tagged in West Greenland and recaptured on Icelandic spawning grounds belonged to the Iceland offshore population, strongly supporting a hypothesis of homing. The high degree of natal fidelity observed provides the evolutionary settings for development of locally adapted populations in marine fish and emphasize the need to consider portfolio effects in marine fisheries management strategies. [ABSTRACT FROM AUTHOR]

Published

2016

3. Spatiotemporal SNP analysis reveals pronounced biocomplexity at the northern range margin of Atlantic cod Gadus morhua.

Author

Therkildsen, Nina Overgaard, Hemmer-Hansen, Jakob, Hedeholm, Rasmus Berg, Wisz, Mary S., Pampoulie, Christophe, Meldrup, Dorte, Bonanomi, Sara, Retzel, Anja, Olsen, Steffen Malskær, and Eg Nielsen, Einar

Subjects

BIOCOMPLEXITY, ATLANTIC cod fisheries, SPECIES distribution, CLIMATE change, SPATIOTEMPORAL processes

Abstract

Accurate prediction of species distribution shifts in the face of climate change requires a sound understanding of population diversity and local adaptations. Previous modeling has suggested that global warming will lead to increased abundance of Atlantic cod (Gadus morhua) in the ocean around Greenland, but the dynamics of earlier abundance fluctuations are not well understood. We applied a retrospective spatiotemporal population genomics approach to examine the temporal stability of cod population structure in this region and to search for signatures of divergent selection over a 78-year period spanning major demographic changes. Analyzing >900 gene-associated single nucleotide polymorphisms in 847 individuals, we identified four genetically distinct groups that exhibited varying spatial distributions with considerable overlap and mixture. The genetic composition had remained stable over decades at some spawning grounds, whereas complete population replacement was evident at others. Observations of elevated differentiation in certain genomic regions are consistent with adaptive divergence between the groups, indicating that they may respond differently to environmental variation. Significantly increased temporal changes at a subset of loci also suggest that adaptation may be ongoing. These findings illustrate the power of spatiotemporal population genomics for revealing biocomplexity in both space and time and for informing future fisheries management and conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2013

4. Evidence of microsatellite hitch-hiking selection in Atlantic cod ( Gadus morhua L.): implications for inferring population structure in nonmodel organisms.

Author

Nielsen, Einar E., Hansen, Michael M., and Meldrup, Dorte

Subjects

MOLECULAR ecology, MARINE fish geographical distribution, ATLANTIC cod, MICROSATELLITE repeats, POPULATION biology

Abstract

Microsatellites have gained wide application for elucidating population structure in nonmodel organisms. Since they are generally noncoding, neutrality is assumed but rarely tested. In Atlantic cod ( Gadus morhua L.), microsatellite studies have revealed highly heterogeneous estimates of genetic differentiation among loci. In particular one locus, Gmo 132, has demonstrated elevated genetic differentiation. We investigated possible hitch-hiking selection at this and other microsatellite loci in Atlantic cod. We employed 11 loci for analysing samples from the Baltic Sea, North Sea, Barents Sea and Newfoundland covering a large part of the species’ distributional range. The ‘classical’ Lewontin–Krakauer test for selection based on variance in estimates of FST and (standardized genetic differentiation) revealed only one significant pairwise test (North Sea–Barents Sea), and the source of the elevated variance could not be ascribed exclusively to Gmo 132. In contrast, different variants of the recently developed ln Rθ test for selective sweeps at microsatellite loci revealed a high number of significant outcomes of pair-wise tests for Gmo 132. Further, the presence of selection was indicated in at least one other locus. The results suggest that many previous estimates of genetic differentiation in cod based on microsatellites are inflated, and in some cases relationships among populations are obscured by one or more loci being the subject to hitch-hiking selection. Likewise, temporal estimates of effective population sizes in Atlantic cod may be flawed. We recommend, generally, to use a higher number of microsatellite loci to elucidate population structure in marine fishes and other nonmodel species to allow for identification of outlier loci that are subject to selection. [ABSTRACT FROM AUTHOR]

Published

2006

5. Genetic population structure of turbot ( Scophthalmus maximus L.) supports the presence of multiple hybrid zones for marine fishes in the transition zone between the Baltic Sea and the North Sea.

Author

Nielsen, Einar E., Nielsen, Peter H., Meldrup, Dorte, and Hansen, Michael M.

Subjects

PSETTA maxima, HYBRID zones, MICROSATELLITE repeats, MARINE fishes, MARINE animals

Abstract

Genetic population structure of turbot ( Scophthalmus maximus L.) in the Northeast Atlantic was investigated using eight highly variable microsatellite loci. In total 706 individuals from eight locations with temporal replicates were assayed, covering an area from the French Bay of Biscay to the Aaland archipelago in the Baltic Sea. In contrast to previous genetic studies of turbot, we found significant genetic differentiation among samples with a maximum pairwise FST of 0.032. Limited or no genetic differentiation was found among samples within the Atlantic/North Sea area and within the Baltic Sea, suggesting high gene flow among populations in these areas. In contrast, there was a sharp cline in genetic differentiation going from the low saline Baltic Sea to the high saline North Sea. The data were explained best by two divergent populations connected by a hybrid zone; however, a mechanical mixing model could not be ruled out. A significant part of the genetic variance could be ascribed to variation among years within locality. Nevertheless, the population structure was relatively stable over time, suggesting that the observed pattern of genetic differentiation is biologically significant. This study suggests that hybrid zones are a common phenomenon for marine fishes in the transition area between the North Sea and the Baltic Sea and highlights the importance of using interspecific comparisons for inferring population structure in high gene flow species such as most marine fishes. [ABSTRACT FROM AUTHOR]

Published

2004

6. Evidence of a hybrid-zone in Atlantic cod (Gadus morhua ) in the Baltic and the Danish Belt Sea revealed by individual admixture analysis.

Author

Nielsen, Einar E., Hansen, Michael M., Ruzzante, Daniel E., Meldrup, Dorte, and Grønkjær, Peter

Subjects

HYBRID zones, ATLANTIC cod, REPRODUCTION, GENETIC polymorphisms

Abstract

Abstract The study of hybrid zones is central to our understanding of the genetic basis of reproductive isolation and speciation, yet very little is known about the extent and significance of hybrid zones in marine fishes. We examined the population structure of cod in the transition area between the North Sea and the Baltic Sea employing nine microsatellite loci. Genetic differentiation between the North Sea sample and the rest increased along a transect to the Baltic proper, with a large increase in level of differentiation occurring in the Western Baltic area. Our objective was to determine whether this pattern was caused purely by varying degrees of mechanical mixing of North Sea and Baltic Sea cod or by interbreeding and formation of a hybrid swarm. Simulation studies revealed that traditional Hardy–Weinberg analysis did not have sufficient power for detection of a Wahlund effect. However, using a model-based clustering method for individual admixture analysis, we were able to demonstrate the existence of intermediate genotypes in all samples from the transition area. Accordingly, our data were explained best by a model of a hybrid swarm flanked by pure nonadmixed populations in the North Sea and the Baltic Sea proper. Significant correlation of gene identities across loci (gametic phase disequilibrium) was found only in a sample from the Western Baltic, suggesting this area as the centre of the apparent hybrid zone. A hybrid zone for cod in the ecotone between the high-saline North Sea and the low-saline Baltic Sea is discussed in relation to its possible origin and maintenance, and in relation to a classical study of haemoglobin variation in cod from the Baltic Sea/Danish Belt Sea, suggesting mixing of two divergent populations without interbreeding. [ABSTRACT FROM AUTHOR]

Published

2003