RT Journal Article SR Electronic T1 Complex interactions between local adaptation, plasticity, and sex affect vulnerability to warming in a widespread marine copepod JF bioRxiv FD Cold Spring Harbor Laboratory SP 423624 DO 10.1101/423624 A1 Sasaki, Matthew A1 Hedberg, Sydney A1 Richardson, Kailin A1 Dam, Hans G. YR 2018 UL http://biorxiv.org/content/early/2018/09/23/423624.abstract AB Predicting the response of populations to climate change requires knowledge of thermal performance. Genetic differentiation and phenotypic plasticity affect thermal performance, but the effects of sex and developmental temperatures often go uncharacterized. We used common garden experiments to test for effects of local adaptation, developmental phenotypic plasticity, and individual sex on thermal performance of the ubiquitous copepod, Acartia tonsa. Females had higher thermal tolerance than males in both populations, while the Florida population had higher thermal tolerance compared to the Connecticut population. An effect of developmental phenotypic plasticity on thermal tolerance was observed only in the Connecticut population. Ignoring sex-specific differences may result in a severe underestimation of population-level impacts of warming (i.e. - population decline due to sperm limitation). Further, despite having a higher thermal tolerance, southern populations may be more vulnerable to warming as they lack the ability to respond to increases in temperature through phenotypic plasticity.