In 2008, a team led by Scott Rogers, a biology professor at Bowling Green State University, grew about 800 cultures from cells found in Lake Vostok’s ice. Those cultures correlated to about 50 different species and joined a small crop of studies, dating to about 1999, indicating that – improbably – the subglacial lake could have some residents.
"We knew that there was something down there," said Dr. Rogers, in a phone interview.
In his team’s most recent experiment, the results of which are published in PLOS ONE, Rogers and colleagues analyzed two ice core sections drilled from different sections of the lake, one from the southwestern region, which is about 10,000 years old, and one from the deeper mid basin, which is about 5,000 years old.
Scientists found 3,507 unique gene sequences – a stunning number for Lake Vostok – in about 500 milliliters of water taken from the ice cores. About 90 percent of the sequences came from the older, southwestern region, which is shallower and thought to be friendlier to life. The researchers were then able to make taxonomic classifications for about half of those sequences using the public gene bank.
Biologists divide all living things into three domains: bacteria, a type of single-cell microbe called archaea, and complex organisms called eukaryotes. The majority (94 percent) of the identified material was matched to bacteria. Six percent of the sequences matched to eukaryotes, a few of which were multicellular and were unprecedented finds for the hostile lake environment. Two sequences were from archaea.
The other half of the sequenced material from the ice did not match any sequences in the public database. Rogers told the Monitor that this material could be viruses, an area in which the database has little information. Altogether, though, those unaccounted sequences are suggestive of our world's apparent infinite capacity to surprise us, he said.