Member Highlight: Pacific Island Countries Could Lose 50-80 Percent Of Fish In Local Waters Under Climate Change

2017-11-16T09:14:24+00:00 November 16, 2017|
A new study shows evidence of an ancient continent under Mauritius. (Credit: Shardan/wikimedia commons)

(Click to enlarge) (Credit: Shardan/wikimedia commons)

Many Pacific Island nations will lose 50 to 80 percent of marine species in their waters by the end of the 21st century if climate change continues unchecked, finds a new Nippon Foundation-Nereus Program study published in Marine Policy. This area of the ocean is projected to be the most severely impacted by aspects of climate change.

(From Science Daily) — “Under climate change, the Pacific Islands region is projected to become warmer, less oxygenated, more acidic, and have lower production of plankton that form the base of oceanic food webs,” said lead author Rebecca Asch, Nereus Program alumnus and Assistant Professor at East Carolina University. “We found that local extinction of marine species exceeded 50 percent of current biodiversity levels across many regions and at times reached levels over 80 percent.”

The Pacific Islands region is the warmest of the global ocean. It’s also an area where there is less seasonal variability — it more or less feels like summer all year. Because there are no drastic seasons, the animals in the tropical Pacific may find changing conditions to be more of a shock.

“Additional warming will push ocean temperature beyond conditions that organisms have not experienced since geological time periods in this region,” said co-author Gabriel Reygondeau, Nereus Fellow at UBC. “Since no organisms living in the ocean today would have time to adapt to these warmer conditions, many will either go extinct or migrate away from the western Pacific, leaving this area with much lower biodiversity.”

The authors examined the effects of climate change on more than a thousand species, including those that live on reefs and those that live in open-water habitats. Both groups underwent declines in local biodiversity, but the rates of decline were higher for the open-water species.

Read the full story here: https://www.sciencedaily.com/releases/2017/11/171115133853.htm