Effect of larval rearing temperature on steroidogenesis pathway development in winter flounder (Pseudopleuronectes americanus) early life history

Winter flounder (Pseudopleuronectes americanus) is a North Atlantic flatfish that inhabits cold-water environments already affected by global warming. Flatfishes are particularly sensitive during their juvenile stage to a phenomenon known as temperature-dependent sex determination (TSD). In this study, we hypothesized that many genes involved in the steroidogenesis pathway are already expressed at the larval stage in winter flounder and that temperature conditions may influence this pathway prior to the juvenile stage, which is usually considered the TSD-sensitive period. We also hypothesized that temperature effects on the steroidogenesis pathway may carry over from the larval to the juvenile stage. We surveyed three cohorts issued from three different spawning events during spring. Rearing temperature and salinity conditions followed seasonal conditions in the St. Lawrence Estuary (Québec, Canada). As a result, cohorts were exposed to different temperature regimes during egg and larval development. Once metamorphosis occurred, all juveniles were held at a stable temperature of 10.1 ± 0.8 °C. Larvae were sampled at 20, 30, and, 40 days post-hatching and juveniles at one and two months post-metamorphosis. RNA was extracted from these individuals and then sequenced. Transcriptome analysis showed clear differentiation between larvae and juveniles. Gene expression patterns showed that the steroidogenesis pathway, including genes involved in gonadal differentiation, was influenced by temperature during larval development, which indicates that sexual determination at the cellular level is an early process in winter flounder development. Carry-over effects of larval rearing temperature conditions were present at the juvenile stage, with an increased number of genes involved in the steroidogenesis pathway being affected. Altogether, our study highlights the important role of larval development and temperature exposure on the transcriptome of winter flounder.