Fluctuating salinity during development impacts fish productivity

Climate change is elevating salinity levels in many freshwater systems, and more erratic rainfall is increasing variation in salinity. Consequently, many species now experience more extreme developmental environments. Resultant shifts in developmental trajectories could change key life history traits that persist into adulthood. To date, however, how variation in salinity affects the life histories of freshwater species has been neglected despite its implications for fisheries. We ran a large-scale experiment with a global pest, the mosquitofish ( Gambusia holbrooki ), and manipulated the salinity experienced by juveniles: freshwater (0‰), stable salinity (10‰) or fluctuating salinity (0-20‰; mean = 10 ‰). Fish developing in stable, high salinity grew faster and matured earlier, albeit with a decline in male telomeres and female gut development. Stable high salinity resulted in larger adult body size in females, but not males, which increased female fecundity. Conversely, fluctuations in salinity induced fish to grow more slowly and lowered female fecundity. Crucially, several of the long-term effects of salinity fluctuations were sex-specific, more adversely affecting females than males. We highlight that environmental variability alters an organism’s vulnerability to stressors, with implications that should be considered if we wish to understand the impact of climate change on population dynamics. ### Competing Interest Statement The authors have declared no competing interest.