Fish stocks in the North Atlantic could halve due to a “hidden vulnerability” involving the oceans’ plankton, a study has found,
The new research published in Nature Communications, found that when climate change causes just a 16 to 26 percent drop in plankton, the oceans’ capacity for fish drops by 38 to 55 percent.
The researchers report that plankton is reducing due to a lack of nutrients in the water. As ocean temperatures rise, nutrients sink to deeper waters meaning there is less at the surface to ensure plankton growth. This leads to less food availability and foraging opportunities for fish that are caught commercially.
Plankton are organisms that provide an essential part of many marine food webs and phytoplankton provide food for a wide variety of sea creatures, including fish of many different types.
In the North Atlantic, plankton has declined over the past five decades, and this has largely been put down to the warming temperatures of the water. Phytoplankton in particular thrives at cooler temperatures, meaning its growth rate goes down when temperatures are warmer. While scientists already know that climate change is disrupting ocean plankton, the direct effect it is having on fish remains unclear.
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Angus Atkinson of the Plymouth Marine Laboratory in the U.K. and Axel Rossberg of Queen Mary University in London, who led the research, came to their findings by analyzing field data of the size structure of plankton. By doing this, they were then able to see how it affected the efficiency of the wider food web.
They discovered that surprisingly, the temperature of the water only played a secondary role.
“Our global analysis sheds light on a hidden vulnerability,” Atkinson said in a summary of the findings. “We were surprised to find temperature didn’t directly affect food web efficiency. Instead, we see ecosystems adapting to warming by changing plankton size. This suggests the main threat comes from reduced nutrient supply, leading to smaller plankton, longer food chains, and inefficient foraging.”
In waters close to shore, for example, an excess of nutrients can cause harmful algal blooms that can be toxic to marine life, Rossberg said in a summary.
However, in deeper waters, it’s actually a lack of nutrients that are causing real problems. Fisheries need to start thinking about this, and the effect climate change is having on stocks, the scientists urge.
“Global averages can mask the true picture,” Atkinson said in the summary. “Some of the most significant projected declines are in areas with concentrated fishing activities.”
“We need a combination of data on plankton size structure and sophisticated computer simulation models to design truly ‘climate-smart’ ocean protection strategies,” Rossberg added. “By understanding the hidden amplifiers within the food web, we can better safeguard the future of our oceans and the vital resources they provide.”
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