Polar bears are spectacular inhabitants of sea ice, which is an inhospitable habitat that grows and retreats around the poles with the seasons. But something else lives on the harsh terrain that gets much less attention: Algae.
Algae combines ocean nutrients with energy from the sun to provide whales and other herbivores with a critical source of food, particularly in the early spring.
But how did algae come to survive such challenging conditions? Scientists looking for an answer to this question discovered that some evolutionary larceny was necessary before algae could move into the icy digs.
Ice-dwelling algae has a special tool that allows it to live in the uninviting climate. These algae ooze gelatinous ice-binding proteins known as extracellular polymeric substances. The proteins manipulate the salt content and pore structure of the ice as it grows around the algal bloom, making the teeth-chattering microclimate all the more accommodating.
Scientists analyzed the ice-binding proteins produced by three species of sea ice-dwelling algae and reported last month in the journal PLoS ONE that the structure of the proteins was “completely incongruent” with the evolution of algae. That strongly suggested that the genes for producing the proteins came from somewhere else.
Species can hijack genes from other wildlife through a number of processes that scientists call horizontal or lateral gene transfer. Viruses are sometimes involved, but not always.
The ice-binding proteins closely resembled proteins produced by bacteria, leading the researchers to conclude that the algae initially stole the gene from bacterial neighbors.
The scientists sampled similar proteins produced by bacterium at the bottom layer of Antarctic sea ice and discovered that nearly half of its amino acids matched those of the special proteins produced by nearby algae.
“Our results strongly suggest that the [ice-binding protein] genes of sea ice diatoms were acquired from bacteria, possibly in separate events,” concluded the researchers. “The acquisition of these genes was an essential factor in allowing the diatoms to expand their range to polar sea ice.”
Fungus has a remarkable ability to thrive when the environment is stressed, allowing it to prey upon animals and plants when those forms of life are weakened. When the Permian period ended with a climate-changing bang 250 years ago, courtesy of volcanoes or perhaps a meteorite, soil fungus overwhelmed the world’s forests. Fungus diseases today are wiping out hundreds of species of frogs and millions of bats, not to mention entire forests.
New research shows that this mysterious kingdom of life is also thriving in the wake of the Deepwater Horizon oil spill.
Scientists studied microscopic life in polluted shoreline sands around Alabama. They compared their findings to the results of surveys taken before the spill and found a sharp reduction in the number and diversity of microscopic animals, replaced by a spike in fungus.
“Our data suggest considerable (hidden) initial impacts across Gulf beaches may be ongoing,” the researchers report in a June 6 paper in the journal PLoS ONE, “despite the disappearance of visible surface oil in the region.”
Tiny sediment-faring worms known as nematodes were heavily affected. Scores of different types of nematodes used to make their homes along the gulf’s floor and it shorelines. But the researchers discovered that these benthic communities are now hospitable for just a handful of nematode species, mostly scavengers and predators.
The fungus that has taken over the oily sand is dominated by species that have a knack for breaking down hydrocarbons. Fungus is the world’s great decomposer and perhaps things will return to normal after the gulf’s new microscopic rulers have converted BP’s disgusting mess into something a little more palatable for the displaced members of the animal kingdom.
There are two species of gorillas — Eastern and Western, both of which live exclusively in Africa. Cross River gorillas are an extremely rare subspecies of the Western gorilla. Just 250 of the great apes are believed to live today.
In a world first, using a camera hidden in a tree, conservationists working in Cameroon’s Kagwene Gorilla Sanctuary shot video of eight of them traipsing down a jungle trail.
Wait or scroll through to the 38-second mark to watch one beat his chest and charge past the hidden camera in an apparent show of aggression and domination.
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