Divergent transcriptional patterns are related to differences in hypoxia tolerance between the intertidal and the subtidal sculpins

Transcriptionally mediated phenotypic plasticity as a mechanism of modifying traits in response to an environmental challenge remains an important area of study. We compared the transcriptional responses to low oxygen (hypoxia) of the hypoxia‐tolerant intertidal fish, the tidepool sculpin ( O ligocottus maculosus ) with the closely related hypoxia‐intolerant subtidal fish, the silverspotted sculpin ( B lepsias cirrhosus ) to determine whether these species use different mechanisms to cope with hypoxia. Individuals from each species were exposed to environmental O 2 tensions chosen to yield a similar level of tissue hypoxia, and gene transcription was assessed in the liver over time. There was an effect of time in hypoxia, where the greatest transcriptional change in the silverspotted sculpin occurred between 3 and 24 h in contrast to the tidepool sculpin where the largest transcriptional change occurred between 24 and 72 h of hypoxia. A number of genes showed similar hypoxia‐induced transcription patterns in both species (e.g. genes associated with glycolysis and apoptosis) suggesting they are involved in a conserved hypoxia response. A large set of genes showed divergent transcriptional patterns in the two species, including fatty acid oxidation and oxidative phosphorylation, suggesting that these biological processes may contribute to explaining variation in hypoxia tolerance in these species. When both species were exposed to a single environmental O 2 tension, large transcriptional responses were seen in the hypoxia‐intolerant silverspotted sculpin while almost no response was observed in the hypoxia‐tolerant tidepool sculpin. Overall, divergent transcription patterns in response to both magnitude and duration of hypoxia provide insights into the processes that may determine an animal's capacity to tolerate frequent bouts of hypoxia in the wild.