ScienceDaily (July 22, 2008) — New research evaluates whether the significant climate change event about 12,900 years ago known as Younger Dryas impacted the climate all around the globe.
The Younger Dryas event refers to an unexpected rapid cooling of the earth that is known to have lasted about 1,300 years. It coincided with widespread extinctions of species, but, although the event itself is well-documented, scientists are still unclear of whether its impact was felt equally all across the globe.
The extent of the impact in the Southern Hemisphere is, in particular, unresolved.
One of the purposes of this most recent trip corresponds with the central question that
"The whole point is that this was a time of rapid environmental transition that we do not understand the cause for," says
"It just might be that we don't have the necessary dating techniques to make these determinations."
There are only a handful of known locations in the Southern hemisphere (one of which is Quelccaya) where samples for both kinds of testing can be obtained at the same site.
When previous sampling has been done at locations in
That leaves scientists to ponder two likely explanations, according to Lowell and Kelly. The first is that the evidence being obtained through the two dating techniques are looking at two different stratified levels of samples, with the carbon-based samples likely dating back to the beginning of Younger Dryas and the advance of the glaciers and the surface-exposure samples coming from a time at the end of Younger Dryas, when the glaciers retreated.
The second option is that there could be problems in calibrating the dating techniques themselves against each other.
To test the second possibility, they undertook the recent trip to
Lowell and Kelly are also collaborating on this work with Fred Phillips, a professor of hydrology at New Mexico Tech whom
Also among those on the seven-member crew that made the trip to the 16,000-foot elevation in
Answering this question has significant implications for better understanding Younger Dryas. New work also published in this edition of Science by a team led by Robert P. Ackert from the Woods Hole Oceanographic Institution supports the conclusion that the forces causing the Younger Dryas event did not cool the eastern glaciers in the Patagonian Icefields in southern
This finding, in conjunction with previous findings from the ice cores in Greenland and Antarctica that show that Greenland cooled during Younger Dryas while
"We were at (Quelccaya) two years ago for preliminary work where we found evidence of this discrepancy between the two dating systems was present," says
Lowell and his colleagues are aiming to make a preliminary presentation on the findings from this most recent trip in December, at the American Geophysical Union's fall meeting in
Adapted from materials provided by