Dark survival in the polar winter. There is strong public interest in both the Arctic and Antarctica and global climate change. By better understanding how these polar ecosystems function in winter and the likely effects of increasing temperatures we will be able to keep the public informed on likely impacts. There are large fishing industries in the Arctic and growing finfish and krill fisheries in the Southern Ocean. This project will contribute to a better understanding of how these stocks wi ....Dark survival in the polar winter. There is strong public interest in both the Arctic and Antarctica and global climate change. By better understanding how these polar ecosystems function in winter and the likely effects of increasing temperatures we will be able to keep the public informed on likely impacts. There are large fishing industries in the Arctic and growing finfish and krill fisheries in the Southern Ocean. This project will contribute to a better understanding of how these stocks will be affected (together with seals, penguins and whales) and how they should be managed to ensure sustainable fisheries and maximum biodiversity.Read moreRead less
Autonomous platforms and biotagging data: new approaches for understanding variability and change across the Antarctic ocean/sea-ice climate system. This project aims to advance our ability to assess and monitor climate change across the Antarctic ocean/sea-ice system. Ocean/sea-ice interactions have a critical role in the global climate and there is an urgent need to determine how these are responding to climate change. This project will overcome gaps in existing observational datasets that cur ....Autonomous platforms and biotagging data: new approaches for understanding variability and change across the Antarctic ocean/sea-ice climate system. This project aims to advance our ability to assess and monitor climate change across the Antarctic ocean/sea-ice system. Ocean/sea-ice interactions have a critical role in the global climate and there is an urgent need to determine how these are responding to climate change. This project will overcome gaps in existing observational datasets that currently limit our understanding of spatiotemporal variability and change in ocean around Antarctica. This study will use two new approaches, biotagging and autonomous platforms, to greatly improve our capacity to model and predict the impacts of climate change on the Antarctic ocean/sea ice system and beyond.Read moreRead less