HALIFAX - A humble, star-shaped creature that crawls across the floors
of the seabed has helped a group of scientists that includes two Nova
Scotian researchers come up with a map predicting surprising amounts of
life in some of the world's deepest, darkest oceans.
The maps linking biodiversity to thousands of samples of the brittle
star from around the globe came out on Wednesday in the journal Nature.
They suggest that deep waters such as those off of Canada's continental
shelves - once thought to be barren deeps - can have a greater density
of some species than shallower and warmer waters.
Derek Tittensor, a biologist at Halifax's Dalhousie University, says
the team collected 165,000 records from museums around the world over a
15-year period.
The findings were fed into a database that he and fellow Dalhousie
biologist Boris Worm helped analyze, with the involvement of six other
scientists, including lead author Skipton Woolley, a doctoral candidate
at the University of Melbourne.
"It was a huge effort compiling this information from sources dating
back to a century or so and putting it together," said Tittensor in a
telephone interview from his office at the United Nations Environment
Programme World Conservation Monitoring Centre.
The database is a compilation of each variety of the brittle star,
where it was found, the latitude and longitude and the depth where it
was located.
Tittensor said co-author Tim O'Hara telephoned, emailed and visited
museums where the samples were stored away after being scooped up off
the ocean floor by methods such as trawls or deepsea submersibles.
The team compiled the data to look for hotspots where there was a wide
variety of brittle stars, as one indicator of biodiversity, said
Tittensor.
"This is the only group at present for which we have enough information to put these distributions together," he said.
The biologist explained that on land and in shallow oceans,
biodiversity tends to peak in the tropics, but for the brittle stars,
they found dense concentrations in areas such as the deep and frigid
oceans off Canada's east coast.
"You tended to get the highest number of species at the mid latitudes,"
he explained. "Places like the central and North Atlantic or New
Zealand, places quite far from the equator."
The density of the brittle stars thriving in the lightless waters of
the deeps may be linked to areas where plankton production is raining
chemical energy into the ecosystem, says the biologist.
"This is the first test as to how well those hypotheses explain biodiversity in the deep ocean," he said.
The scientists say the seasonal cycles in the northern and southern
hemispheres spark natural cycles that produce large-scale algal blooms
in the spring and fall.
During the process, the plankton produced on the surface clump together
and the energy-rich particles then cascade to the bottom of the oceans
like marine snowfall, providing nutrients to the sea life that may be
over two kilometres deep.
Tittensor says the science team is hoping that as more data from around
the world is collected, global maps of seafloor diversity will continue
to become more detailed and cover a wider range of marine life.
The data may also provide further support for protecting the ocean
floors as governments plan to manage and conserve ocean areas, said the
biologist.
"The implication ... in terms of planning to conserve an area is we'll
need to take into account not just the shallow oceans but also the deep
sea floors."
Source: http://www.ctvnews.ca/sci-tech/scientists-find-surprising-varieties-of-life-while-mapping-deep-oceans-1.2898730
