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Thursday, September 2, 2010

Researchers from the British Antarctic Survey (BAS) have discovered very similar colonies of Bryozoans 1,500 miles apart on opposite sides of the West Antarctic Ice Sheet, which is an indication that the ice sheet once thawed, creating a link between the Ross and Weddell Seas

Marine animals suggest evidence for a trans-Antarctic seaway

Researchers from the British Antarctic Survey (BAS) have discovered very similar colonies of Bryozoans 1,500 miles apart on opposite sides of the West Antarctic Ice Sheet, which is an indication that the ice sheet once thawed, creating a link between the Ross and Weddell Seas.
Bryozoans are tiny moss-like animals that anchor themselves to the seabed.

Number: 09/2010
A tiny marine filter-feeder, that anchors itself to the sea bed, offers new clues to scientists studying the stability of the West Antarctic Ice Sheet — a region that is thought to be vulnerable to collapse1.
Kymella Polaris: a cheilostome bryozoan at 32m depth at Outer Island, Signy Island. This species is bilaminar (it is double sided with zooids on both sides), bright orange in life but fades to white on death. It is a common Antarctic species occurring below 30m at Signy and below 15m at Rothera.
Kymella Polaris: a cheilostome bryozoan at 32m depth at Outer Island, Signy Island. This species is bilaminar (it is double sided with zooids on both sides), bright orange in life but fades to white on death. It is a common Antarctic species occurring below 30m at Signy and below 15m at Rothera.
As part of a study for the Census of Antarctic Marine Life (CAML), scientists from British Antarctic Survey (BAS) analysed sea-bed colonies of bryozoans from coastal and deep sea regions around the continent and from further afield. They found striking similarities in particular species of bryozoans living on the continental shelves of two seas — the Ross and Weddell — that are around 1,500 miles apart and separated by the West Antarctic Ice Sheet.
This new finding, published this month in the journal Global Change Biology, leads the science team to conclude that these animals could have spread across both seas only by means of a trans-Antarctic seaway through what is now a 2 km solid layer of ice. They suggest also that this seaway opened up during a recent interglacial (warm period between ice ages) perhaps as recently as 125,000 years ago when sea level was about 5 metres higher than today.
While some geological evidence suggests that the West Antarctic Ice Sheet (WAIS) collapsed at least once in the last million years, scientists are keen to determine the frequency of collapse and to understand the processes and connections between warm periods and deglaciation events. Elsewhere around Antarctica the marine animals that could help scientists estimate the date when West Antarctica was ice free, were obliterated during ice ages by advancing glaciers that bulldozed their fossil remains off the continental shelf.
A schematic of partial collapse of the West Antarctic Ice Sheet showing a seaway between the Weddell and Ross seas (as well as Amundsen and Bellingshausen seas). Such a collapse would enable mixing of faunas but would also generate significant sea level rise.
A schematic of partial collapse of the West Antarctic Ice Sheet showing a seaway between the Weddell and Ross seas (as well as Amundsen and Bellingshausen seas). Such a collapse would enable mixing of faunas but would also generate significant sea level rise.
This new biological evidence contributes to glaciological investigations focused on the future stability of the WAIS, which may have a major impact on the rate of sea level rise in the coming centuries. Scientists estimate that a complete collapse of the WAIS would raise global sea level by around 3.3 m to 5 m.
Lead author of the paper Dr David Barnes of British Antarctic Survey said,
“The West Antarctic Ice Sheet can be considered the Achilles heel of Antarctica and because any collapse will have implications for future sea level rise it’s important that scientists get a better understanding of big deglaciation events. This biological evidence is one of the novel ways that we look for clues that help us reconstruct Antarctica’s ice sheet history.
“Our new research provides compelling evidence that a seaway stretching across West Antarctica could have opened up only if the ice sheet had collapsed in the past.
Pack ice in the Weddell Sea
Pack ice in the Weddell Sea
“When we found groups of strikingly similar bryozoans hundreds of miles apart we knew we were onto something very interesting. Perhaps these species had survived the last ice age whereas in all other regions of Antarctica they were wiped out. We know that after the last ice age groups of bryozoans dispersed freely between many of the regions we studied. But because the larvae of these animals sink and this stage of their life is short — and the adult form anchors itself to the seabed — it’s very unlikely that they would have dispersed the long distances carried by ocean currents. For the bryozoans on both the Weddell and Ross sea continental shelves to be more similar to one another than to any of those found in the waters in between is striking indeed. Our conclusion is that the colonisation of both these regions is a signal that both seas were connected by a trans-Antarctic seaway in the recent past.”
ENDS

Issued by the BAS Press Office:

Heather Martin, Tel: +44 (0)1223 221414; mobile: 07740 822229; email: hert@bas.ac.uk
Linda Capper, Tel: +44 (0)1223 221448; mobile: 07714 233744; email: 
lmca@bas.ac.uk

Scientist contact details:

Dr David Barnes, Tel: +44 (0)1223 221613; Mobile: 07736 921 693; email: dkab@bas.ac.uk
Stunning broadcast-quality footage and stills of Antarctica, along with a copy of the full Global Change Biology paper are available at: ftp://ftp.nerc-bas.ac.uk/pub/photo/DavidBarnes/
Images used should be credited to British Antarctic Survey
Global Change Biology paper: Faunal evidence for a late quaternary trans-Antarctic seawayby David K A Barnes and Claus-Dieter Hillenbrand — see early view online version at:http://onlinelibrary.wiley.com/doi/10.1111/j.1365-2486.2010.02198.x/full

Notes for editors:

Bryozoans take many different forms, some of which are shown here. All of these occur on Southern Ocean continental shelves
Bryozoans take many different forms, some of which are shown here. All of these occur on Southern Ocean continental shelves
Bryozoans (aquatic animals sometimes referred to as moss animals) feed on microorganisms suspended in the water column. Their larvae are benthic and short-lived but this is the dispersal stage — as adults they anchor themselves to the seabed. Many of the 500 species around Antarctica are restricted to shallows and particular continental shelves.
Census of Antarctic Marine Life (CAML) is the International Polar Year 2007–08 component of the Census of Marine Life — a global network of researchers in more than 80 nations engaged in a 10-year scientific initiative to assess and explain the diversity, distribution, and abundance of life in the oceans. The world’s first comprehensive Census of Marine Life — past, present, and future — will be released in 2010.
1The West Antarctic Ice Sheet (WAIS) is considered to be most vulnerable to global change. It has been suggested that the WAIS may be prone to collapse under warmer climatic conditions, which could raise global sea level by 3.3–5 metres. Some scenarios predict a collapse of the WAIS within the coming centuries, and others suggest a collapse within the next 4,000 — 7,000 years. Some geological data and ice sheet models suggest that the WAIS may have disintegrated at least once during the last million years, possibly as recently as 125,000 years ago. So far, geological data has not provided clear evidence for a collapse as recently as this. Scientists recognise the urgency in improving their understanding of this region of the Earth.

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