Video: Watch footage from the research team鈥檚 expedition to get samples from the vents.
Deep-sea hydrothermal vents look like alien worlds, their landscapes and fauna unlike any on Earth. Now a new study suggests that life works differently there too.
While studying the viruses that inhabit the scalding waters surrounding a vent in the Western Pacific, noticed that a large proportion turned out to be docile tenants that lurk inside their bacterial hosts without causing much trouble. Marine phages 鈥 the viruses that parasitise bacteria and archaea in the sea 鈥 tend to infect their hosts, divide and burst them like balloons.
鈥淲e鈥檝e never see that before anywhere else we鈥檝e looked in the ocean,鈥 says Wommack, a microbiologist at the University of Delaware in Newark, who built a device that sinks to the ocean floor and, with the help of a remote submarine, ferries 120-litre samples of water to a waiting boat.
Advertisement
Instead of hijacking bacteria to spawn offspring, these cell-splitting 鈥 or lysogenic 鈥 viruses insert their short genomes into the bacteria鈥檚 own, endowing it with potentially useful genes.
Survival genes
鈥淢aybe the viruses that these bacteria are harbouring have genes that are aiding the bacteria in surviving in this harsh environment,鈥 Wommack says.
During times of stress, the phages awake and churn out copies of themselves. During this awakening, viruses can mistakenly encapsulate bacterial genes and pass them onto new microbes.
For now, it鈥檚 unclear what sorts of genes the hydrothermal vent viruses shuttle between hosts. Of the 258 viral sequences Wommack鈥檚 team recovered from a thermal vent 2,500 m below the ocean surface, about 800 km west of Costa Rica, only a quarter matched known gene sequences.
Hydrothermal vent viruses could offer bacteria genes that help them cope with high heat, which deforms proteins, Wommack explains. Viruses could also help cells make a living by metabolising alternative sources of energy, such as sulphur, by shunting key metabolism genes from place to place.
To get a better handle on the lives of the viruses, Wommack plans to collect additional samples for further DNA sequencing. His team will also sample viruses from another vent off the coast of Baja, Mexico to see if the docile life is common to other locations.
, an expert on marine viruses at the University of British Columbia in Vancouver, agrees that lysogenic marine viruses could transfer novel features to bacteria. The bacteria that cause cholera, he notes, only causes disease when infected with a virus.
鈥淭here鈥檚 roughly Avogadro鈥檚 number (approx. 6 X 1023) of infections going on in the ocean, and every one of those interactions can result in the transfer of genetic information between virus and host,鈥 he says.
Journal reference: (DOI: 10.1038/ismej.2008.73)
Evolution 鈥 Learn more about the struggle to survive in our comprehensive special report.
Genetics 鈥 Keep up with the pace in our continually updated special report.
Mysteries of the Deep Sea -The deep sea is one of the harshest habitats on Earth, but is home to many remarkable creatures. Learn more in our comprehensive special report.