David Holland's research is in Nature today
NSF News sent out the following press release yesterday afternoon:
Press Release 14-013: Analysis indicates that North and tropical Atlantic warming affects Antarctic climate
International Polar Year funding helped support the research
January 22, 2014
The gradual warming of the North and tropical Atlantic Ocean is contributing to climate change in Antarctica, a team of New York University (NYU) scientists supported by the National Science Foundation (NSF) has concluded.
Their findings appear in the Jan. 23 edition of the journal Nature.
Their work draws from more than three decades of atmospheric data and shows new ways in which distant regional conditions are contributing to Antarctic climate change.
"Our findings reveal a previously unknown and surprising force behind climate change that is occurring deep in our southern hemisphere: the Atlantic Ocean," says Xichen Li, a doctoral student in NYU's Courant Institute of Mathematical Sciences and the study's lead author. "Moreover, the study offers further confirmation that warming in one region can have far-reaching effects in another."
NSF is responsible for managing the U. S. Antarctic Program in Antarctica and in the Southern Ocean.
NSF supported the research in part through a collaborative grant made during the International Polar Year 2007-2009 (IPY), during which researchers from 60 nations deployed to the Arctic and Antarctica as part of a global campaign of fieldwork. NSF was the lead U.S. agency for the IPY. NSF's Division of Atmospheric and Geospace Sciences also provided funding, as did NASA.
Over the last few decades, Antarctica has experienced dramatic climate change, with the Antarctic Peninsula, which reaches northward towards South America, exhibiting the strongest warming of any region on the planet.
During its summer, Antarctic changes have been attributed to greenhouse gas increase and stratospheric ozone loss. However, less clear are the forces behind climate changes that occur during its winter. In addition, the effects of these changes during the cold season are complex, adding a layer of difficulty to the efforts to find the atmospheric culprit.
It has long been known that the region's climate is affected, in part, by changes in the distant Pacific Ocean climate. But the phenomena brought on by the Pacific have shorter-term influences--for instance, due to El Niño. Less well understood are the longer-term forces that have produced warming along the Antarctic Peninsula or the sea-ice redistribution in the Southern Hemisphere's winter over many decades.
To address this question, the NYU researchers focused on a different candidate: the Atlantic Ocean, which has been overlooked as a factor behind Antarctic climate change.
Specifically, the scientists looked at the North and Tropical Atlantic's Sea Surface Temperature (SST) variability--changes in the ocean's surface temperature--focusing on the last three decades. This metric, the Atlantic Multidecadal Oscillation, had previously not been considered in seeking explanations for Antarctic climate change.
Using a time-series analysis, in which the scientists matched changes in the North and tropical Atlantic's space-based SST data with subsequent changes in Antarctic climate, the researchers found strong correlations. Specifically, they observed that warming Atlantic waters were followed by changes in sea-level pressure in the Antarctic's Amundsen Sea. In addition, these warming patterns also preceded redistribution of sea ice between the Antarctic's Ross and Amundsen-Bellingshausen-Weddell Seas.
David Holland, co-author of the study, a professor at NYU's Courant Institute and past-director of NYU's Center for Atmospheric Ocean Science, explained that the research consisted of two parts, incorporating both observational data and computer modeling.
The first part of the study, using observational data, found a link, or correlation, between the Atlantic and Antarctic data sets. But a correlation means simply that two things appear to happen in conjunction and does not explain what may be causing a phenomenon.
The second used a global atmospheric model, which allowed the researchers to create a simulated warming of the North Atlantic. The model responded, as the researchers had suspected, by "changing" the climate in Antarctica.
"While our data analysis showed a correlation, it was the use of a state-of-the-art computer model that allowed us to see that North Atlantic warming was causing Antarctic climate change and not vice versa," he said.
The study's findings raise a number of deeper questions, such as, is Antarctic sea-ice change fundamentally different from the well-reported changes in the Arctic? In contrast to the sea-ice decline in the Arctic, Antarctic sea ice has not diminished. Rather, it has redistributed itself in ways that have perplexed scientists, with declines in some areas and increases in others.
Holland responds, "from this study, we are learning just how Antarctic sea-ice redistributes itself and also finding that the underlying mechanisms controlling Antarctic sea ice are completely distinct from those in the Arctic."
The study's other authors included Edwin Gerber, an assistant professor at the Courant Institute; and Changhyun Yoo, a Courant post-doctoral fellow.
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