Wild salmon migration routes influence sea lice infestations: An agent-based model predicting farm-related infestations on juvenile salmon
Jaewoon Jeong, Gregor McEwan, Vanessa Carels, Arnar Palsson, Arnar Palsson, Arnar Palsson

TL;DR
This study uses a computer model to show how wild salmon migration routes affect their risk of getting sea lice from nearby fish farms.
Contribution
The novel contribution is an agent-based model that simulates how migration routes and proximity to farms influence sea lice infestation in juvenile sockeye salmon.
Findings
Salmon on longer migration routes with lower infestation pressure can still experience high sea lice loads.
Slower swimming speeds and meandering routes increase exposure to sea lice.
Exposure time is a critical factor in determining infestation levels.
Abstract
This study presents an Agent-Based Model (ABM) simulation to assess the impact of varying migration routes on sea lice (Caligus clemensi) infestation levels in juvenile wild sockeye salmon (Oncorhynchus nerka) in the Discovery Islands, British Columbia, Canada. This research highlights the importance of migratory routes in determining the extent of exposure to sea lice originating from nearby salmon farms. Three northward out-migration routes were modelled, each exposing the fish to different levels of infestation pressure based on proximity to salmon farms. The ABM incorporates spatially explicit migration patterns of juvenile sockeye salmon using a detailed raster map of the Discovery Islands. Key variables such as swimming speed, progression rate, and infestation levels were integrated into the model, offering a comprehensive analysis of migration and infestation dynamics. The study…
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Taxonomy
TopicsParasite Biology and Host Interactions · Marine and fisheries research · Genetic diversity and population structure
