Add to ORKGOver the last half of the 20th century, the western Antarctic Peninsula has been one of the most rapidly warming regions on Earth, leading to substantial reductions in regional sea ice coverage. These changes are modulated by atmospheric forcing, including the Amundsen Sea Low (ASL) pressure system. We utilized a novel 25-year (1993–2017) time series to model the effects of environmental variability on larvae of a keystone species, the Antarctic Silverfish (Pleuragramma antarctica). Antarctic Silverfish use sea ice as spawning habitat and are important prey for penguins and other predators. We show that warmer sea surface temperature and decreased sea ice are associated with reduced larval abundance. Variability in the ASL modulates both se...
Climate change effects are already being observed in some regions of the Southern Ocean, where redu...
Investigating how environmental variation influences population, food web, and community dynamics is...
The extent, duration, and seasonality of sea ice and glacial discharge strongly influence Antarctic ...
Over the last half of the 20th century, the western Antarctic Peninsula has been one of the most rap...
Pleuragramma antarctica is the dominant forage fish of the coastal Antarctic, exhibiting a circuman...
The Antarctic fish fauna is unique, with approximately 88% of the ~375 known species endemic to the ...
The sea ice, extending seasonally over a vast area of the circumpolar Oceans, plays crucial roles in...
Antarctic marine ecosystems are increasingly threatened by climate change and are considered to be p...
Global warming has caused a significant decrease in sea ice coverage in the Arctic. This is having f...
Polar regions are warming more rapidly than lower latitudes, and climate models predict that this tr...
Antarctic silverfish (Pleuragramma antarctica) are the most important pelagic forage fish on the Ant...
Understanding the mechanisms by which climate variability affects multiple trophic levels in food we...
Exploitation of Southern Ocean marine resources began more than 200 years ago with the massive hunt ...
AbstractAlthough Antarctic sea ice is undergoing a slight increase in overall extent, major regional...
The evolution of the Antarctic notothenioid fishes in the chronically cold waters of the Southern Oc...
Climate change effects are already being observed in some regions of the Southern Ocean, where redu...
Investigating how environmental variation influences population, food web, and community dynamics is...
The extent, duration, and seasonality of sea ice and glacial discharge strongly influence Antarctic ...
Over the last half of the 20th century, the western Antarctic Peninsula has been one of the most rap...
Pleuragramma antarctica is the dominant forage fish of the coastal Antarctic, exhibiting a circuman...
The Antarctic fish fauna is unique, with approximately 88% of the ~375 known species endemic to the ...
The sea ice, extending seasonally over a vast area of the circumpolar Oceans, plays crucial roles in...
Antarctic marine ecosystems are increasingly threatened by climate change and are considered to be p...
Global warming has caused a significant decrease in sea ice coverage in the Arctic. This is having f...
Polar regions are warming more rapidly than lower latitudes, and climate models predict that this tr...
Antarctic silverfish (Pleuragramma antarctica) are the most important pelagic forage fish on the Ant...
Understanding the mechanisms by which climate variability affects multiple trophic levels in food we...
Exploitation of Southern Ocean marine resources began more than 200 years ago with the massive hunt ...
AbstractAlthough Antarctic sea ice is undergoing a slight increase in overall extent, major regional...
The evolution of the Antarctic notothenioid fishes in the chronically cold waters of the Southern Oc...
Climate change effects are already being observed in some regions of the Southern Ocean, where redu...
Investigating how environmental variation influences population, food web, and community dynamics is...
The extent, duration, and seasonality of sea ice and glacial discharge strongly influence Antarctic ...