Abstract
Previous studies have demonstrated limited potential for acclimation of adversely affected olfactory behaviours in reef fishes under elevated CO 2, indicating that genetic adaptation will be required to maintain behavioural performance in the future. Adaptation depends on the presence of heritable phenotypic variation in the trait, which may differ between populations and environments. We used parent–offspring regressions to estimate the heritability (h 2) of variation in behavioural tolerance to high CO 2 (754 μatm) in both field‐collected and laboratory‐reared families of Acanthochromis polyacanthus. Tolerance to elevated CO 2 was measured by determining the behavioural response of individuals to chemical alarm cues. Both populations exhibited high heritability of olfactory behaviour phenotype (father–mid‐offspring h 2 = 0.56 & 0.65, respectively) when offspring were acutely exposed to high CO 2 for 4 days. However, there was no heritability in the behavioural phenotype when juveniles were chronically exposed to high CO 2 for 6 weeks in the laboratory‐reared families. Parental exposure to high CO 2 during the breeding season did not alter this relationship between heritability and length of juvenile exposure to high CO 2. These results demonstrate that variation in behavioural tolerance to high CO 2 is heritable, but adaptive potential may be constrained by a loss of phenotypic variation when juveniles permanently experience a high‐CO 2 environment, as will occur with rising CO 2 levels in the ocean.
Highlights
Ocean acidification, caused by the uptake of additional CO2 from the atmosphere (Caldeira & Wickett, 2003), will impact many marine species and have far-reaching effects on the ecosystems they inhabit (Gattuso & Hansson, 2011)
Our results show that parents that were tolerant to acute elevated CO2 conditions produced offspring that exhibited behavioural tolerance under acute high-CO2 treatments, but this effect was not evident in sibling offspring that were reared in high CO2 from hatching
Our results show that the duration of exposure to high CO2 can substantially influence the variation in behavioural responses exhibited in juvenile fish, and the heritability of behavioural responses to high CO2
Summary
Ocean acidification, caused by the uptake of additional CO2 from the atmosphere (Caldeira & Wickett, 2003), will impact many marine species and have far-reaching effects on the ecosystems they inhabit (Gattuso & Hansson, 2011). An additional complication of assessing the adaptive potential to high CO2 is that parental exposure to environmental stress can alter offspring phenotypes independently of genetic variation (Guillaume, Munro, & Marshall, 2016). In the laboratory-reared population, we were able to test for heritability of variation in behavioural responses to CAC following chronic exposure of juveniles to elevated CO2 and when parents had been chronically exposed to high CO2. The laboratory-reared population enabled us to investigate potential differences in heritability associated with acute versus chronic exposure of juvenile fish to high CO2 and possible nongenetic parental effects from chronic exposure of adults to high CO2
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