DeSoto Caverns Provide UA Geologists Insight into Global Warming

UA graduate student Joe Lambert of Cullman (left) and Dr. Paul Aharon (right), UA geology professor, examine a chamber in DeSoto Caverns. (Photo: Michael Rasbury).
UA graduate student Joe Lambert of Cullman (left) and Dr. Paul Aharon (right), UA geology professor, examine a chamber in DeSoto Caverns. (Photo: Michael Rasbury).

TUSCALOOSA, Ala. – One of Alabama’s popular spots under the ground is helping University of Alabama scientists understand more about global warming on top of the ground.

A team of UA geologists is conducting research deep in the underground caves of DeSoto Caverns Park, a state attraction visited by more than 100,000 people annually, located on the outskirts of Childersburg, a small town in Talladega County.

By studying carbonate deposits — stalactites and stalagmites — that have formed in the caves, the UA scientists are able to learn how the outside climate has changed over time. They hope to date the climate changes back to 1540 – the time the caves were actually discovered by the Spanish explorer Hernando DeSoto – and beyond.

The team is led by Dr. Paul Aharon, UA professor of geology and holder of the Ray E. Loper Endowed Chair in Geological Sciences. Aharon is working on the project with UA doctoral students Joe Lambert of Cullman and Michael Rasbury of Sulligent.

Aharon says the DeSoto Caverns research project is designed to look at current issues scientists are debating concerning global warming. For example, the Southeast is in a 10-year cycle of drought, and scientists are asking if this is related to global climate data measuring some 2 degrees warmer than 50 years ago.

“Are the extreme events we see today linked to a trend in global warming, or are they part of a natural cycle that tends to come and go?” Aharon asks.

The professor and his students will use what nature has left behind to unravel the past climate and environment of the area. Stalactites and stalagmites are formed when rainfall drips through the soil and bedrock, depositing in caves over long time periods.

The scientists are gathering data by using “radio-isotope” dating (similar to Carbon 14 dating) of samples from stalagmites in DeSoto Caverns — in conjunction with isotopes of oxygen and carbon that serve as climate indicators. The data can then be plotted using the age against the isotopic compositions as related to the weather that would have caused the isotopes to reach a particular value.

Stalactites (from above) and stalagmites (from below) are plentiful in DeSoto Caverns. (Photo: Joe Lambert).
Stalactites (from above) and stalagmites (from below) are plentiful in DeSoto Caverns. (Photo: Joe Lambert).

The stalagmites contain growth increments, shown in bands, that the UA team is able to measure and use in the interpretation of the climatology and history of the environment.

Enclosed, underground caves — where the stalactites and stalagmites grow — have provided a steady annual temperature with no seasonal fluctuation, Aharon notes. So, any changes in the formations are direct results of external climate changes, he explains.

The UA team has already taken samples from stalactites and stalagmites in DeSoto Caverns. “Our aim is to use the stalagmites as a proxy record – like an archive of the rainfall and outside annual air temperature means. Any changes in temperature could be related to the global climate,” Aharon says.

The scientists are using recorded historic climate data to track through time with the data they collect from the cave samples for cross calibration purposes.

In addition to studying samples, the research team is using data-collecting sensors placed near the stalactites and stalagmites in DeSoto Caverns to monitor temperature, relative humidity and carbon dioxide. They have chosen a remote cave area undisturbed by the site’s many visitors.

Being close to home was a compelling reason to study the formations in DeSoto Caverns, but the researchers add that the caves are among the oldest in the United States explored by human beings.

DeSoto Caverns has an interesting history: the Native Americans inhabited the caves at one time, they were used for mining salt peter to make ammunition in the Civil War, during the Prohibition Era the site was frequented by moonshiners, and later the site was used for mining the semi-precious onyx stone.

Today, DeSoto Caverns is owned by Allen Mathis III whose family has owned the place since 1925; this third generation owner turned the site into a popular family attraction and has welcomed the UA research team.

A dental drill is used to micro-sample stalagmite growth bands. (Photo: Joe Lambert).
A dental drill is used to micro-sample stalagmite growth bands. (Photo: Joe Lambert).

The UA research site is in a hidden area of the caves not accessible to tourists. “We have identified stalagmites large enough to date back in time many thousands of years,” Aharon noted.

Based on initial research results, Aharon says they have observed a climate shift toward warmer temperatures around 1850. This could indicate global warming caused by the Industrial Revolution, the clearing of forests, or it could be part of a natural climate cycle.

“The bottom line is that the study of stalagmites and stalactites is providing a good way to solve some of the controversies about global warming that exist today,”Aharon says.

This UA research project is also being conducted in a special laboratory on campus, funded by the National Science Foundation, that has been built, designed and tested over the past two years by the scientific team and is dedicated for this kind of research.

Contact

Linda Hill, UA Media Relations, 205/348-8325, lhill@ur.ua.edu

Source

Dr. Paul Aharon, 205/348-2528, aharon@wgs.geo.ua.edu, paharon@aol.comJoe Lambert, 205/348-0818, jlambert@wgs.geo.ua.edu