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Main Authors: Balstad, Laurinne J, Godwin, Sean C, Krkošek, Martin, Lewis, Mark A, Baskett, Marissa L
Format: Artículo científico
Language:en
Published: Theoretical ecology 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40487730/
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author Balstad, Laurinne J
Godwin, Sean C
Krkošek, Martin
Lewis, Mark A
Baskett, Marissa L
author_facet Balstad, Laurinne J
Godwin, Sean C
Krkošek, Martin
Lewis, Mark A
Baskett, Marissa L
Balstad, Laurinne J
Godwin, Sean C
Krkošek, Martin
Lewis, Mark A
Baskett, Marissa L
collection PubMed - marine biology
contents Threshold-based disease treatment approach modulates economic, conservation and evolutionary trade-offs in sea louse-salmon aquaculture system. Balstad, Laurinne J Godwin, Sean C Krkošek, Martin Lewis, Mark A Baskett, Marissa L Mitigating negative downstream impacts of parasitic disease in aquaculture settings entails tradeoffs: reducing parasite loads has economic and conservation benefits, but treatment is often expensive and frequent treatment can lead to resistance evolution. Options for mitigating these potential trade-offs depend on the management context. For example, in the sea louse-salmon system, managers use discrete treatment applications to control louse burdens, applying treatment when parasite burdens exceed a target threshold. To analyze the effect of a threshold-based control of disease treatment on economic, conservation, and evolutionary outcomes, we incorporate discrete treatment into a dynamical model of sea louse-salmon systems with disease spillover to wild populations. The model follows both salmon hosts and sea lice through domestic, wild, and migratory populations, with treatment occurring when sea lice exceed a target threshold. Our model shows that simultaneous economic and conservation win-wins are possible: there are treatment threshold choices that lead to relatively high wild juvenile salmon population sizes and relatively low economic losses, especially when treatment is very effective or treatment is cheap. However, positive evolutionary outcomes are harder to capture and occur most often when treatment efficacy is low and the treatment threshold is either near zero or very high. Expanding the management toolbox beyond choices of treatment threshold and treatment efficacy could help managers better capture positive economic, evolutionary and conservation outcomes in the system.
format Artículo científico
id pubmed_40487730
institution PubMed
language en
publishDate 2025
publisher Theoretical ecology
record_format pubmed
spellingShingle Threshold-based disease treatment approach modulates economic, conservation and evolutionary trade-offs in sea louse-salmon aquaculture system.
Balstad, Laurinne J
Godwin, Sean C
Krkošek, Martin
Lewis, Mark A
Baskett, Marissa L
Threshold-based disease treatment approach modulates economic, conservation and evolutionary trade-offs in sea louse-salmon aquaculture system. Balstad, Laurinne J Godwin, Sean C Krkošek, Martin Lewis, Mark A Baskett, Marissa L Mitigating negative downstream impacts of parasitic disease in aquaculture settings entails tradeoffs: reducing parasite loads has economic and conservation benefits, but treatment is often expensive and frequent treatment can lead to resistance evolution. Options for mitigating these potential trade-offs depend on the management context. For example, in the sea louse-salmon system, managers use discrete treatment applications to control louse burdens, applying treatment when parasite burdens exceed a target threshold. To analyze the effect of a threshold-based control of disease treatment on economic, conservation, and evolutionary outcomes, we incorporate discrete treatment into a dynamical model of sea louse-salmon systems with disease spillover to wild populations. The model follows both salmon hosts and sea lice through domestic, wild, and migratory populations, with treatment occurring when sea lice exceed a target threshold. Our model shows that simultaneous economic and conservation win-wins are possible: there are treatment threshold choices that lead to relatively high wild juvenile salmon population sizes and relatively low economic losses, especially when treatment is very effective or treatment is cheap. However, positive evolutionary outcomes are harder to capture and occur most often when treatment efficacy is low and the treatment threshold is either near zero or very high. Expanding the management toolbox beyond choices of treatment threshold and treatment efficacy could help managers better capture positive economic, evolutionary and conservation outcomes in the system.
title Threshold-based disease treatment approach modulates economic, conservation and evolutionary trade-offs in sea louse-salmon aquaculture system.
url https://pubmed.ncbi.nlm.nih.gov/40487730/