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Antarctic lakes provide glimpse of ancient forest fires and modern human impacts, CU-Boulder study finds

The perpetually ice-covered lakes in Antarctica鈥檚 McMurdo Dry Valleys preserve the dissolved remnants of black carbon from thousand-year-old wildfires as well as modern day fossil fuel use, according to a new study led by the 彩民宝典. 

The distinctive molecular signatures can provide researchers with a glimpse into the planet鈥檚 long history of combustion. Atmospheric black carbon, which is generated by wildfires or fossil fuel use, becomes preserved in glaciers, which in turn serve as long-term reservoirs and chemical time capsules.

 was published today in the American Geophysical Union journal, Geophysical Research Letters.

The McMurdo Dry Valleys of Antarctica are the largest ice-free region of the continent and are considered a polar desert environment due to their low humidity, scarce precipitation and lack of plant life. During the summer, glacial melt feeds closed-basin lakes. Some of these lakes have saline bottom waters from drawdown events about a thousand years ago.

These briny bottom waters preserve the chemical signatures of fires that occurred thousands of years ago and thousands of miles away, the study found. Dissolved black carbon is present in the world鈥檚 oceans as well as on land, and now has been found to be detectible in the pristine, isolated lakes of Antarctica.

鈥淲e know the long-term history of these lakes and that there are no local forest fires burning nearby, so we can be more certain that these woody signatures have come over from South America, Africa or Australia, for instance,鈥 said Alia Khan, a graduate researcher in the Institute of Arctic and Alpine Research (INSTAAR) at CU-Boulder and lead author of the study.

鈥淥verall there have been relatively few direct measurements of dissolved black carbon in the cryosphere due to the difficulty of sample collection from these remote environments,鈥 Khan added. 鈥淭hese are the first we know of from freshwater lakes in Antarctica.鈥 

Closer to the top of the lakes, the researchers also found low, but distinct, concentrations of man-made black carbon, possibly from helicopter use in and around the Antarctic continent. 

The study may open new avenues of inquiry into how black carbon signatures have shifted over time and how dissolved black carbon is transported to the world鈥檚 oceans and lakes.

鈥淗aving a new chemical tool that allows us to identify the source and transformation of black carbon is very exciting,鈥 said Diane McKnight, a professor of Civil, Environmental and Architectural Engineering at CU-Boulder, an INSTAAR fellow and a co-author of the study.

The new paper 鈥淒issolved black carbon in Antarctic lakes: chemical signatures of past and present sources鈥 was co-authored by Rudolf Jaff茅 and Yan Ding of Florida International University.

The research was supported by the National Science Foundation Graduate Research Fellowship (award DGE-1144083) a CU-Boulder CEAE Dissertation Completion Fellowship, the McMurdo Dry Valleys Long Term Ecological Research Program (award ANT-0423595); the FCE-LTR (award DEB-1237517); the Polar Geospatial Center at the University of Minnesota (award PLR-104368); and the Southeast Environmental Research Center at Florida International University.

Contact:
Alia Khan, 919-622-5180
alia.khan@colorado.edu
Diane McKnight, 303-492-4687
diane.mcknight@colorado.edu
Trent Knoss, 303-735-0528
trent.knoss@colorado.edu