Dissolved oxygen and pH policy leave fisheries at risk
Caption: Global map of low oxygen or hypoxic zone which have become more prevalent and dangerous to marine life.
Credit: Figure courtesy of Breitburg, D., Levin, L.A., Oschlies, A., Grégoire, M., Chavez, F.P., Conley, D.J., Garçon, V., Gilbert, D., Gutiérrez, D., Isensee, K. and Jacinto, G.S., 2018. Declining oxygen in the global ocean and coastal waters. Science, 359(6371), p.eaam7240.
In a Policy Forum, “Dissolved oxygen and pH criteria leave fisheries at risk” published in the April 24 issue of the journal Science, Stony Brook University’s Dr. Christopher J. Gobler, Endowed Chair of Coastal Ecology and Conservation, and Stephen J. Tomasetti, Science Teaching and Research to Inform Decisions (STRIDE) fellow, consider accumulating scientific evidence on the harmful effects of coastal hypoxia (low oxygen) and acidification (decreasing pH, increasing acidity) in coastal ecosystems and suggest approaches that would address current policy shortfalls and facilitate improved protection of aquatic life.
During the past two decades, scientists have learned how hypoxia and acidification can act and interact to harm marine organisms. Hundreds of low oxygen or dead zones have been identified across the globe. Ocean acidification, a process resulting from the continued buildup of increasing atmospheric carbon dioxide in the oceans, has been discovered. And yet, regulation of dissolved oxygen (DO) and pH in coastal waters have remained unchanged.
The Clean Water Act aims to restore and protect the waters of the United States from impairment; waters that do not meet state standards are listed as impaired, a designation that can initiate critical remediation actions. According to Dr. Gobler, the current saltwater DO and pH criteria of many states allow for harmful conditions to persist without amelioration. “Our understanding of the dynamics of DO and pH and the effects on marine life have advanced dramatically this century to the point that it is now clear that criteria for pH and DO are likely to leave important marine species vulnerable to harm”, he said.
The reduction of DO and pH in coastal waters can individually have adverse effects on aquatic life, however, current regulations do not consider the combined effects of these stressors which are often experienced in combination and can be more severe than each stressor individually. Not until the scientific field of Ocean Acidification had been established, had their combined effects been broadly considered.