Ocean temperatures are predicted to rise as carbon monoxide gas accumulates due to climate change. To determine the impact on larval white seabass, researchers sampled fish reared at 18–23 degrees Celsius throughout development from birth to six days old. With this process, they were hoping to differentiate the effects of temperature and time. They estimated growth and development rates by examining images obtained under a light microscope, among other methods.
These findings are important because it helps inform fish population predictions in the face of climate change. The fishing industry is an important link in the U.S. food supply chain. Predicting growth rates and population structures of white seabass, a commercially and recreationally significant population in California, is critically important to help ensure food security.
“Our results suggest that larval fish recruitment could swing to either extremity as a result of ocean warming,” said Ria Bhabu, co-author of the study and a student at the University of California San Diego.
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