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Auteurs principaux: Lennox, Robert, Eldøy, Sindre Håvarstein, Schulze, Angela, Miller, Kristina M, Isaksen, Trond Einar, Davidsen, Jan Grimsrud, Nilsen, Cecilie Iden, Dahlmo, Lotte Svengård, Vollset, Knut Wiik
Format: Artículo científico
Langue:en
Publié: Proceedings. Biological sciences 2026
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Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/41702433/
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author Lennox, Robert
Eldøy, Sindre Håvarstein
Schulze, Angela
Miller, Kristina M
Isaksen, Trond Einar
Davidsen, Jan Grimsrud
Nilsen, Cecilie Iden
Dahlmo, Lotte Svengård
Vollset, Knut Wiik
author_facet Lennox, Robert
Eldøy, Sindre Håvarstein
Schulze, Angela
Miller, Kristina M
Isaksen, Trond Einar
Davidsen, Jan Grimsrud
Nilsen, Cecilie Iden
Dahlmo, Lotte Svengård
Vollset, Knut Wiik
Lennox, Robert
Eldøy, Sindre Håvarstein
Schulze, Angela
Miller, Kristina M
Isaksen, Trond Einar
Davidsen, Jan Grimsrud
Nilsen, Cecilie Iden
Dahlmo, Lotte Svengård
Vollset, Knut Wiik
collection PubMed - marine biology
contents Pathogen diversity cannot explain variation in fate and behaviour of trout across a latitudinal gradient. Lennox, Robert Eldøy, Sindre Håvarstein Schulze, Angela Miller, Kristina M Isaksen, Trond Einar Davidsen, Jan Grimsrud Nilsen, Cecilie Iden Dahlmo, Lotte Svengård Vollset, Knut Wiik Animals Trout Norway Animal Migration Fish Diseases Rivers Batrachochytrium Pathogens play a significant role in the evolution of many species and are increasingly prevalent in salmonid populations, potentially owing to fish-farming activities. To understand the role of pathogens in the migration of sea-run brown trout, we replicated an acoustic telemetry and gill biopsy study across four rivers along a latitudinal gradient in Norway to test for an interaction between infection by pathogens and latitude (as a proxy for climate). We predicted that pathogen infection would affect the migration performance of trout differently in the four rivers. While infection richness was high within individuals (up to 11 agents per individual detected), we found relatively similar infection profiles across the four populations, and no clear latitudinal gradients in metrics of behaviour and fate within a year of sampling. It appeared that fate and behaviour were more closely linked to the river of origin, with some indications of poorer survival in the rivers that have warmer annual temperatures linked to the hydrology of the watershed rather than to the latitude. Pathogen diversity alone did not have a major effect on the behaviour and life history of adult sea trout from the focal populations. For the purposes of marine spatial planning and aquaculture management, impacts of microbes on adult trout do not currently appear to be a priority issue.
format Artículo científico
id pubmed_41702433
institution PubMed
language en
publishDate 2026
publisher Proceedings. Biological sciences
record_format pubmed
spellingShingle Pathogen diversity cannot explain variation in fate and behaviour of trout across a latitudinal gradient.
Lennox, Robert
Eldøy, Sindre Håvarstein
Schulze, Angela
Miller, Kristina M
Isaksen, Trond Einar
Davidsen, Jan Grimsrud
Nilsen, Cecilie Iden
Dahlmo, Lotte Svengård
Vollset, Knut Wiik
Animals
Trout
Norway
Animal Migration
Fish Diseases
Rivers
Batrachochytrium
Pathogen diversity cannot explain variation in fate and behaviour of trout across a latitudinal gradient. Lennox, Robert Eldøy, Sindre Håvarstein Schulze, Angela Miller, Kristina M Isaksen, Trond Einar Davidsen, Jan Grimsrud Nilsen, Cecilie Iden Dahlmo, Lotte Svengård Vollset, Knut Wiik Animals Trout Norway Animal Migration Fish Diseases Rivers Batrachochytrium Pathogens play a significant role in the evolution of many species and are increasingly prevalent in salmonid populations, potentially owing to fish-farming activities. To understand the role of pathogens in the migration of sea-run brown trout, we replicated an acoustic telemetry and gill biopsy study across four rivers along a latitudinal gradient in Norway to test for an interaction between infection by pathogens and latitude (as a proxy for climate). We predicted that pathogen infection would affect the migration performance of trout differently in the four rivers. While infection richness was high within individuals (up to 11 agents per individual detected), we found relatively similar infection profiles across the four populations, and no clear latitudinal gradients in metrics of behaviour and fate within a year of sampling. It appeared that fate and behaviour were more closely linked to the river of origin, with some indications of poorer survival in the rivers that have warmer annual temperatures linked to the hydrology of the watershed rather than to the latitude. Pathogen diversity alone did not have a major effect on the behaviour and life history of adult sea trout from the focal populations. For the purposes of marine spatial planning and aquaculture management, impacts of microbes on adult trout do not currently appear to be a priority issue.
title Pathogen diversity cannot explain variation in fate and behaviour of trout across a latitudinal gradient.
topic Animals
Trout
Norway
Animal Migration
Fish Diseases
Rivers
Batrachochytrium
url https://pubmed.ncbi.nlm.nih.gov/41702433/