Genetic variation of hypoxia tolerance in farmed fish: a systematic review for selective breeding purposes
Sergio P. Barahona, Nicolás Salinas-Parra, Rodrigo Pulgar, José Gallardo-Matus

TL;DR
This paper reviews genetic variation in farmed fish related to hypoxia tolerance, aiming to support selective breeding for climate resilience.
Contribution
The study provides a systematic review of genetic markers and traits linked to hypoxia tolerance in farmed fish for breeding applications.
Findings
Significant phenotypic variability in hypoxia tolerance was observed across fish families, strains, and species.
Candidate genes involved in hypoxia responses include HIF-related genes, energy metabolism, and oxidative stress defense.
Heritability estimates for hypoxia tolerance ranged from 0.28 to 0.65, indicating potential for selective breeding.
Abstract
Accelerating climate change has intensified hypoxic events in aquatic ecosystems. In aquaculture, high stocking densities make farmed fish particularly vulnerable to these episodes, leading to negative economic repercussions. This has driven interest in selective breeding for hypoxia tolerant fish as a potential mitigation strategy. In this context, the present systematic review synthesizes and critically evaluates current knowledge on genetic variation associated with hypoxia tolerance in farmed fish species. A literature search was conducted in Scopus and Web of Science following the Preferred Reporting Items for Systematic reviews and Meta-Analyses 2020 guidelines. In total, 964 articles were identified, of which 41 met the inclusion criteria, encompassing 26 species and three hybrid lines. Among the farmed fish, the blunt snout bream, rainbow trout, common carp, and Nile tilapia…
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Taxonomy
TopicsPhysiological and biochemical adaptations · Cancer, Hypoxia, and Metabolism · Biomimetic flight and propulsion mechanisms
