Seafloor predators and open-water feeding animals will benefit from climate change, while those associated with sea ice for food or breeding are most at risk
— by Tania Fitzgeorge-balfour, Frontiers science writer
Marine Antarctic animals closely associated with sea ice for food or breeding, such as the humpback whale and emperor penguin, are most at risk from the predicted effects of climate change, finds a new study published in Frontiers in Marine Science. Using risk assessments like those used for setting occupational safety limits in the workplace, scientists from the British Antarctic Survey determined the winners and losers of Antarctic climate-change impacts, which includes temperature rise, sea-ice reduction and changes in food availability. They show that seafloor predators and open-water feeding animals, like starfish and jellyfish, will benefit from the opening up of new habitat.
“One of the strongest signals of climate change in the Western Antarctic is the loss of sea ice, receding glaciers and the break-up of ice shelves,” says Dr Simon Morley, lead author, based at the British Antarctic Survey (BAS), UK. “Climate change will affect shallow water first, challenging the animals who live in this habitat in the very near future. While we show that many Antarctic marine species will benefit from the opening up of new areas of sea floor as habitat, those associated with sea ice are very much at risk.”
A growing body of research on how climate change will impact Antarctic marine animals prompted the researchers to review this information in a way that revealed which species were most at risk.
“We took a similar approach to risk assessments used in the workplace, but rather than using occupational safety limits, we used information on the expected impacts of climate change on each animal,” explains seabird ecologist Mike Dunn, co-author of this study, which forms part of a special article collection on aquatic habitat ecology and conservation. “We assessed many different animal types to give an objective view of how biodiversity might fare under unprecedented change.”
They found that krill — crustaceans whose young feed on the algae growing under sea ice — were scored as vulnerable, in turn impacting the animals that feed on them, such as the Adèlie and chinstrap penguins and the humpback whale. The emperor penguin scored as high risk because sea ice and ice shelves are its breeding habitat.
Dunn adds, “The southern right whale feeds on a different plankton group, the copepods, which are associated with open water, so is likely to benefit. Salps and jellyfish, which are other open-water feeding animals are likely to benefit too.”
The risk assessment also revealed that bottom-feeders, scavengers and predators, such as starfish, sea urchins and worms, may gain from the effects of climate change.
“Many of these species are the more robust pioneers that have returned to the shallows after the end of the last glacial maximum, 20,000 years ago, when the ice-covered shelf started to melt and retreat,” explains Dr David Barnes, co-author of this research. “These pioneer species are likely to benefit from the opening of new habitats through loss of sea ice and the food this will provide.”
He continues, “Even if, as predicted for the next century, conditions in these shallow-water habitats change beyond the limits of these species, they can retreat to deeper water as they did during the last glacial maxima. However, these shallow-water communities will be altered dramatically – temperature-sensitive animals with calcium shells were scored as the most at risk if this happens.”
As more information becomes available, the researchers hope to improve their predictions.
Morley explains, “The next step is to assign weights to the factors and predicted impacts. For example, temperature is a factor that has major effects on cold-blooded marine animals, but will it be more of a problem than the benefit from loss of sea ice? It is very difficult to know until we have more data.”
Original article: Predicting Which Species Succeed in Climate-Forced Polar Seas
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