Add to ORKGUnderstanding the scale of connectivity and adaptation among marine populations can inform fisheries conservation and management. We used a combination of advanced genomic techniques and experimental methods to determine the scale of connectivity and adaptation in the sea scallop, Placopecten magellanicus. Restriction-site Associated DNA sequencing genotyped 7163 SNPs in 245 individuals across 12 populations in the Northwest Atlantic. Subsequent analysis of these data identified a strong separation between populations north and south of Nova Scotia and identified an association between population structure and the coldest temperatures experienced by scallop populations. Common garden experiments on a northern and southern population...
Marine bivalves are sessile or sedentary as adults but have planktonic larvae which can potentially ...
In previous research, microsatellite markers have been used to geographically and phylogenetically c...
Declines in global marine finfish catches, which accounts for ~15% of the animal protein consumed by...
Recent developments in genomics are advancing our understanding of the processes shaping population ...
Understanding patterns of dispersal and connectivity among marine populations can directly inform fi...
Environmental factors can influence diversity and population structure in marine species and accurat...
This is the final version. Available on open access from Wiley via the DOI in this recordData availa...
Funding: This study was initiated as part of the European Marine Biological Research Infrastructure ...
Population dynamics of marine species that are sessile as adults are driven by oceanographic dispers...
In the northwest Atlantic Ocean, sea scallop (Placopecten magellanicus) have been characterized by a...
Recent developments in genomics are advancing our understanding of the processes shaping population ...
Knowledge on how environmental factors shape the genome of marine species is crucial for sustainable...
Knowledge of changes in the interdependence of a species\u27 populations for continued existence (co...
Marine bivalves are sessile or sedentary as adults but have planktonic larvae which can potentially ...
In previous research, microsatellite markers have been used to geographically and phylogenetically c...
Declines in global marine finfish catches, which accounts for ~15% of the animal protein consumed by...
Recent developments in genomics are advancing our understanding of the processes shaping population ...
Understanding patterns of dispersal and connectivity among marine populations can directly inform fi...
Environmental factors can influence diversity and population structure in marine species and accurat...
This is the final version. Available on open access from Wiley via the DOI in this recordData availa...
Funding: This study was initiated as part of the European Marine Biological Research Infrastructure ...
Population dynamics of marine species that are sessile as adults are driven by oceanographic dispers...
In the northwest Atlantic Ocean, sea scallop (Placopecten magellanicus) have been characterized by a...
Recent developments in genomics are advancing our understanding of the processes shaping population ...
Knowledge on how environmental factors shape the genome of marine species is crucial for sustainable...
Knowledge of changes in the interdependence of a species\u27 populations for continued existence (co...
Marine bivalves are sessile or sedentary as adults but have planktonic larvae which can potentially ...
In previous research, microsatellite markers have been used to geographically and phylogenetically c...
Declines in global marine finfish catches, which accounts for ~15% of the animal protein consumed by...