Saved in:
Bibliographic Details
Main Authors: Delgado, M Lisette, Smith, Nicole, Whoriskey, Frederick, Devitt, Steve, Novaczek, Emilie, Morris, Corey J, Kess, Tony, Bradbury, Ian, Iverson, Sara, Bentzen, Paul, Ruzzante, Daniel E
Format: Artículo científico
Language:en
Published: Journal of fish biology 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40760860/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266169495977986
author Delgado, M Lisette
Smith, Nicole
Whoriskey, Frederick
Devitt, Steve
Novaczek, Emilie
Morris, Corey J
Kess, Tony
Bradbury, Ian
Iverson, Sara
Bentzen, Paul
Ruzzante, Daniel E
author_facet Delgado, M Lisette
Smith, Nicole
Whoriskey, Frederick
Devitt, Steve
Novaczek, Emilie
Morris, Corey J
Kess, Tony
Bradbury, Ian
Iverson, Sara
Bentzen, Paul
Ruzzante, Daniel E
Delgado, M Lisette
Smith, Nicole
Whoriskey, Frederick
Devitt, Steve
Novaczek, Emilie
Morris, Corey J
Kess, Tony
Bradbury, Ian
Iverson, Sara
Bentzen, Paul
Ruzzante, Daniel E
collection PubMed - marine biology
contents Northern cod (Gadus morhua) movement: insights from acoustic telemetry and genomics. Delgado, M Lisette Smith, Nicole Whoriskey, Frederick Devitt, Steve Novaczek, Emilie Morris, Corey J Kess, Tony Bradbury, Ian Iverson, Sara Bentzen, Paul Ruzzante, Daniel E Knowledge of the timing and diversity of fish movements within a commercially exploited stock complex is required to ensure the sustainability of fisheries. Although migration can be driven by environmental factors, genomic mechanisms also play an important role in this complex life-history trait. The northern cod (Gadus morhua) stock complex, off the coast of Newfoundland and Labrador, once supported the largest fishery in the world. Like other Atlantic cod stocks, northern cod is believed to include components with diverse migratory patterns. Here we used telemetry to track the movement of 847 acoustically tagged northern cod caught and released from inshore and offshore sites. Four different migratory phenotypes were distinguished: (i) cod that moved along the Northwest Atlantic Fisheries Organization (NAFO) Divisions 2J3KL (3P4RS), (ii) cod that remained year-round mainly north of the Notre Dame Channel (NAFO Divisions 2J and north of 3K), (iii) cod that remained year-round mainly south of the Notre Dame Channel (NAFO Divisions south of 3K and 3L) and (iv) cod that remained year-round inshore. Whole-genome sequences of 77 tagged cod showed no relation between chromosomal inversions and the four migratory phenotypes described here but revealed genomic regions encoding for hormone receptors that show differentiation between cod detected north versus south of the Notre Dame Channel during the peak spawning season. This study demonstrates the synergistic value of an interdisciplinary approach that combines genomic with acoustic telemetry data along with life-history information (i.e., spawning time) to elucidate the complex spatial-temporal dynamics of a widespread marine species under exploitation.
format Artículo científico
id pubmed_40760860
institution PubMed
language en
publishDate 2025
publisher Journal of fish biology
record_format pubmed
spellingShingle Northern cod (Gadus morhua) movement: insights from acoustic telemetry and genomics.
Delgado, M Lisette
Smith, Nicole
Whoriskey, Frederick
Devitt, Steve
Novaczek, Emilie
Morris, Corey J
Kess, Tony
Bradbury, Ian
Iverson, Sara
Bentzen, Paul
Ruzzante, Daniel E
Northern cod (Gadus morhua) movement: insights from acoustic telemetry and genomics. Delgado, M Lisette Smith, Nicole Whoriskey, Frederick Devitt, Steve Novaczek, Emilie Morris, Corey J Kess, Tony Bradbury, Ian Iverson, Sara Bentzen, Paul Ruzzante, Daniel E Knowledge of the timing and diversity of fish movements within a commercially exploited stock complex is required to ensure the sustainability of fisheries. Although migration can be driven by environmental factors, genomic mechanisms also play an important role in this complex life-history trait. The northern cod (Gadus morhua) stock complex, off the coast of Newfoundland and Labrador, once supported the largest fishery in the world. Like other Atlantic cod stocks, northern cod is believed to include components with diverse migratory patterns. Here we used telemetry to track the movement of 847 acoustically tagged northern cod caught and released from inshore and offshore sites. Four different migratory phenotypes were distinguished: (i) cod that moved along the Northwest Atlantic Fisheries Organization (NAFO) Divisions 2J3KL (3P4RS), (ii) cod that remained year-round mainly north of the Notre Dame Channel (NAFO Divisions 2J and north of 3K), (iii) cod that remained year-round mainly south of the Notre Dame Channel (NAFO Divisions south of 3K and 3L) and (iv) cod that remained year-round inshore. Whole-genome sequences of 77 tagged cod showed no relation between chromosomal inversions and the four migratory phenotypes described here but revealed genomic regions encoding for hormone receptors that show differentiation between cod detected north versus south of the Notre Dame Channel during the peak spawning season. This study demonstrates the synergistic value of an interdisciplinary approach that combines genomic with acoustic telemetry data along with life-history information (i.e., spawning time) to elucidate the complex spatial-temporal dynamics of a widespread marine species under exploitation.
title Northern cod (Gadus morhua) movement: insights from acoustic telemetry and genomics.
url https://pubmed.ncbi.nlm.nih.gov/40760860/