The Ross Sea, the most productive region in the Antarctic, reaches farther south than any body of water in the world. While its food web is relatively intact, its oceanography, biogeochemistry, and sea ice coverage have been changing dramatically, and likely will continue to do so in the future. Sea ice cover and persistence have been increasing, in contrast to the Amundsen-Bellingshausen sector, which has resulted in reduced open water duration for its biota. Models predict that as the ozone hole recovers, ice cover will begin to diminish. Currents on the continental shelf will likely change in the coming century, with a projected intensification of flow leading to altered deep ocean ventilation. Such changes in ice and circulation will le...
The causes of the recent increase in Antarctic sea ice extent, characterised by large regional contr...
In 2010-2011, three projects combined to characterize the temporal and spatial distributions of Modi...
© The Author(s), 2016. This is the author's version of the work. It is posted here under a nonexclu...
The Ross Sea, the most productive region in the Antarctic, reaches farther south than any body of wa...
The Ross Sea, the most productive region in the Antarctic, reaches farther south than any body of wa...
The Ross Sea is critically important in regulating Antarctic sea ice and is biologically productive,...
The Ross Sea is critically important in regulating Antarctic sea ice and is biologically productive,...
The Ross Sea (Antarctica) plays a significant role in the Southern Ocean carbon cycle by functioning...
The Ross Sea is the most productive area of ocean in Antarctica, yet it is vulnerable to the effect...
The Ross Sea, a highly productive region of the Southern Ocean, is expected to experience warming du...
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attributi...
The Ross Sea sustains a rich ecosystem and is the most productive sector of the Southern Ocean. Most...
The bioavailability of iron influences the distribution, biomass and pioductivity of phytoplankton i...
Upward advection or mixing of iron-rich deep waters due to circulation changes driven by the rate of...
The causes of the recent increase in Antarctic sea ice extent, characterised by large regional contr...
In 2010-2011, three projects combined to characterize the temporal and spatial distributions of Modi...
© The Author(s), 2016. This is the author's version of the work. It is posted here under a nonexclu...
The Ross Sea, the most productive region in the Antarctic, reaches farther south than any body of wa...
The Ross Sea, the most productive region in the Antarctic, reaches farther south than any body of wa...
The Ross Sea is critically important in regulating Antarctic sea ice and is biologically productive,...
The Ross Sea is critically important in regulating Antarctic sea ice and is biologically productive,...
The Ross Sea (Antarctica) plays a significant role in the Southern Ocean carbon cycle by functioning...
The Ross Sea is the most productive area of ocean in Antarctica, yet it is vulnerable to the effect...
The Ross Sea, a highly productive region of the Southern Ocean, is expected to experience warming du...
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attributi...
The Ross Sea sustains a rich ecosystem and is the most productive sector of the Southern Ocean. Most...
The bioavailability of iron influences the distribution, biomass and pioductivity of phytoplankton i...
Upward advection or mixing of iron-rich deep waters due to circulation changes driven by the rate of...
The causes of the recent increase in Antarctic sea ice extent, characterised by large regional contr...
In 2010-2011, three projects combined to characterize the temporal and spatial distributions of Modi...
© The Author(s), 2016. This is the author's version of the work. It is posted here under a nonexclu...
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