News Release

Loss of diversity near melting coastal glaciers

Sedimentation is impacting an entire ecosystem on the seafloor

Peer-Reviewed Publication

Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research

Benthos in Potter Cove

image: Particularly tall-growing ascidians like some previously dominant sea squirt species cannot adapt to the changed conditions and die out, while their shorter relatives can readily accommodate the cloudy water and sediment cover view more 

Credit: Alfred Wegener Institute / Christian Lagger (CONICET)

Melting glaciers are causing a loss of species diversity among benthos in the coastal waters off the Antarctic Peninsula, impacting an entire seafloor ecosystem. This has been verified in the course of repeated research dives, the results of which were recently published by experts from Argentina, Germany and Great Britain and the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI) in a study in the journal Science Advances. The scientists believe increased levels of suspended sediment in the water to be the cause of the dwindling biodiversity in the coastal region. This occurs when the effects of global warming lead glaciers near the coast to begin melting, as a result of which large quantities of sediment are carried into the seawater.

Over the past five decades, temperatures have risen nearly five times as rapidly on the western Antarctic Peninsula than the global average. Yet the impacts of the resulting retreat of glaciers on bottom-dwelling organisms (benthos) remain unclear. In response, researchers at Dallmann Laboratory are now mapping and analysing the benthos in Potter Cove, located on King George Island off the western Antarctic Peninsula. Here the Alfred Wegener Institute and the Argentine Antarctic Institute (IAA) operate Dallmann Laboratory as part of the Argentinian Carlini Station. Research concerning benthic flora and fauna has been part of the laboratory's long-term monitoring programme for more than two decades.

In 1998, 2004 and 2010 divers photographed the species communities at three different stations and at different water depths: the first, near the glacier's edge; the second, an area less directly influenced by the glacier; and the third, in the cove's minimally affected outer edge. They also recorded the sedimentation rates, water temperatures and other oceanographic parameters at the respective stations, so that they could correlate the biological data with these values. Their findings: some species are extremely sensitive to higher sedimentation rates. "Particularly tall-growing ascidians like some previously dominant sea squirt species can't adapt to the changed conditions and die out, while their shorter relatives can readily accommodate the cloudy water and sediment cover," explains Dr Doris Abele, an AWI biologist and co-author of the study, adding, "The loss of important species is changing the coastal ecosystems and their highly productive food webs, and we still can't predict the long-term consequences."

"It was essential to have a basis of initial data, which we could use for comparison with the changes. In the Southern Ocean we began this work comparatively late," says the study's first author, marine ecologist Ricardo Sahade from the University of Cordoba and Argentina's National Scientific and Technical Research Council CONICET, who is leading the benthic long-term series. "Combining this series of observations, accompanying ecological research on important Antarctic species, and mathematical modelling allows us to forecast the changes to the ecosystem in future scenarios," adds co-author Fernando Momo from Argentina's National University of General Sarmiento.

Dallmann Laboratory at Carlini Station (formerly Jubany Station) was first founded in 1994 as a joint facility by the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI) and the Argentine Antarctic Institute (IAA). It has since established itself as a trusted research platform for numerous international and interdisciplinary network programmes, which were supported by the European Union and Argentinian funding organisations throughout the past decade. "Sustainable long-term research and coordinated, interdisciplinary Antarctic research programmes are essential in order to explain the local changes in coastal ecosystems in connection with global warming," says Doris Abele. She coordinates the ongoing EU project IMCONet at Dallmann Laboratory, just as she did for previous projects like IMCOAST, in which the research underlying the current study was conducted. In addition to our Argentinian partners, researchers from the British Antarctic Survey and the University of Oldenburg also participated in the Science Advances study.

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Original publication:

Ricardo Sahade, Cristian Lagger, Luciana Torre, Fernando Momo, Patrick Monien, Irene Schloss, David K.A. Barnes, Natalia Servetto, Soledad Tarantelli, Marcos Tatián, Nadia Zamboni, Doris Abele: Climate change and glacier retreat drive shifts in an Antarctic benthic ecosystem. Science Advances 2015; DOI: 10.1126/sciadv.1500050

Information for members of the press:

Printable images can be found following this link: http://multimedia.awi.de/medien/pincollection.jspx?collectionName=%7B6139386e-904e-254e-9504-ce5243109a99%7D

Your contact partner is Dr Doris Abele (she is travelling at the moment, please send an email to: Doris.Abele@awi.de), and at the Department of Communications and Media Relations Dr Folke Mehrtens (Tel: 0049 471 4831-2007; email: Folke.Mehrtens@awi.de)


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