ScienceDaily (Mar. 30, 2012) ? Glaciers play a vital role in Earth's climate system, and it's critical to understand what contributes to their fluctuation. Increased global temperatures are frequently viewed as the cause of glacial melt, but a new study of Patagonia's Gualas Glacier highlights the role of precipitation in the glacier's fluctuation.
The study, conducted by S?bastien Bertrand of Renard Centre of Marine Geology, Ghent University (Belgium) and Woods Hole Oceanographic Institution (WHOI) and his colleagues, reconstructs a 5,400 year-record of the region's glacial environment and climate, comparing past temperature and rainfall data with sediment records of glacier fluctuations and the historical observations of early Spanish explorers.
The study was published March 15 in the Open Access journal Climate of the Past.
As glaciers fluctuate, retreating or adding mass, they dramatically affect the water cycle -- locking up fresh water as they amass, causing the sea level to rise as they thaw and retreat.
"Improving our understanding of the impact of climate changes on glacier variability is one of the most pressing aspects of present-day climate research," says Bertrand, a postdoctoral fellow in WHOI's Marine Chemistry and Geochemistry department and the Renard Centre of Marine Geology, University of Ghent.
The focus of the work is Gualas Glacier, a 32-kilometer long shifting mountain of ice with an area of 119.2 square kilometers that sits above Golfo Elefantes. It is part of the Northern Patagonian Icefield (NPI), a series of 70 glaciers fed by precipitation that originates in the Pacific Ocean and falls in the rain belt west of the Andes, reaching levels of up to ten meters a year. The majority of the western NPI glaciers have retreated over the last 150 years.
"These glaciers are retreating as a response to global climate change, but not only because of increasing temperature, which is generally cited as the cause of worldwide glacier retreat," said Bertrand. "The fast retreat of Gualas, and other western NPI glaciers, during the last century, seems to be driven by a decrease in winter precipitation -- snow -- rather than by an increase in temperature."
The study constituted the first effort to use glaciomarine sediments -- sediments transported by glaciers or their meltwater to the marine environment -- from the fjords of Northern Chilean Patagonia to reconstruct Holocene glacier fluctuations, reaching back 5,400 years. After analyzing a sediment core gathered in the central basin of Golfo Elefantes during a 2005 cruise aboard the icebreaker Nathaniel B. Palmer, the scientists reckoned that over five millennia the glacier had seen three major periods of advance. Once this picture was assembled, it was compared with data on regional temperature and precipitation to determine which factor most impacted Gualas Glacier.
Two high resolution sea-surface temperature records were used as temperature indicators, and pollen records demonstrated precipitation levels. Examining these, the scientists discovered trends in the pollen/precipitation levels that corresponded to the fluctuations seen in the glacier, while the temperature levels were less influential, suggesting the glacier was mostly affected by precipitation.
In addition to the geological record, the study incorporates the observations of early Spanish explorers, beginning with Antonio de Vea in 1675. Spanish explorers documented their voyages to Patagonia, noting what they saw, and omitting what they didn't -- or couldn't -- see. Using the explorers' maps and descriptions of Patagonia's fjords, Bertrand and his colleagues pieced together the life-story of Gualas Glacier. Through studying these historical documents, the scientists determined that Gualas Glacier has retreated nine kilometers over the last 110 years, including 2.5 km during the last 25 years.
Although this study reveals the glaciers west of the Andes are controlled by precipitation, Bertrand says that glaciers on the eastern -- leeward -- flank of the icefield may be controlled by temperature.
"It needs to be tested if we are to understand and better predict the impact of global climate change on Patagonian glaciers," he said. He added that glaciers located in other maritime environments might also be driven by changes in precipitation rather than temperature.
The idea to use historical documents came from team member Fernando Torrej?n, an historian with the University of Concepci?n (Chile) who specializes in extracting climate and environmental information from written and iconographic documents. Bertrand recalls, "I knew his work on some Chilean glaciers, such as San Rafael, so I asked him to participate in this study to complement the results from the sediment cores."
Torrej?n plumbed the records of the 17th-century Spanish explorers archived at the library at the University of Concepci?n and the National Library of Chile, in Santiago. His contribution added an interesting historical component to the study and confirmed the interpretation of the geological/sediment record.
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The above story is reprinted from materials provided by Ghent University, via AlphaGalileo.
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Journal Reference:
- S. Bertrand, K. A. Hughen, F. Lamy, J.-B. W. Stuut, F. Torrej?n, C. B. Lange. Precipitation as the main driver of Neoglacial fluctuations of Gualas glacier, Northern Patagonian Icefield. Climate of the Past, 2012; 8 (2): 519 DOI: 10.5194/cp-8-519-2012
Note: If no author is given, the source is cited instead.
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