“After oil exposure, sea bass that were previously strong hypoxic performers lost their edge,” said Yangfan Zhang, a UBC zoologist in the Faculty of Land and Food Systems and lead author on the study. “Had we not distinguished the hypoxia tolerant and hypoxia sensitive phenotypes we would have missed an important effect. Obviously, this is concerning, not only in terms of the survival of certain individuals, but in terms of the impact that exposures might have on weakening the species’ gene pool.” Surprisingly, the researchers, who published the findings in Aquatic Toxicology, didn’t find any long-term residual impacts on fish that were weaker hypoxic performers. Exposure to oil also had no long-term residual impact on the fish’s aerobic performance. “Ecologically, sea bass that can tolerate low oxygen represent an important component of the gene pool for this species to survive the periodic bouts of hypoxia in their habitat, which are increasing in frequency in a global sense,” said study co-author Tony Farrell, with UBC’s Faculty of Land and Food Systems and the Department of Zoology. “So even subtle residual effects on this group of high performing fish could be of great concern for population dynamics, recruitment and production." “Besides bringing new knowledge about the impact of oil exposure on a marine organism, this project highlights a fruitful collaboration between scientists and the oil industry, for the benefit of all,” said project leader Guy Claireaux, professor at the University of Brest, France. The project was funded by the International Tanker Owners Pollution Federation, Total and by the Natural Sciences and Engineering Research Council of Canada.