During a science cruise in 2008, researchers from British Antarctic Survey (BAS) and the University of East Anglia (UEA), in collaboration with colleagues from the US Woods Hole Oceanographic Institution and the National Oceanic and Atmospheric Administration (NOAA), discovered severe dissolution of the shells of living pteropods in Southern Ocean waters.
The team examined an area of upwelling, where winds cause cold water to be pushed upwards from the deep to the surface of the ocean. Upwelled water is usually more corrosive to a particular type of calcium carbonate (aragonite) that pteropods use to build their shells. The team found that as a result of the additional influence of ocean acidification, this corrosive water severely dissolved the shells of pteropods.
Ocean acidification is caused by the uptake of carbon dioxide from the atmosphere emitted as a result of fossil fuel burning. A number of laboratory experiments have demonstrated the potential effect of ocean acidification on marine organisms. However, to date, there has been little evidence of such impacts occurring to live specimens in their natural environment. The finding supports predictions that the impact of ocean acidification on marine ecosystems and food webs may be significant.
Lead author, Dr Nina Bednaršek, formerly of BAS and UEA, and now of the National Oceanic and Atmospheric Administration (NOAA) says:
"We know that the seawater becomes more corrosive to aragonite shells below a certain depth – called the 'saturation horizon' – which occurs at around 1000m depth. However, at one of our sampling sites, we discovered that this point was reached at 200m depth, through a combination of natural upwelling and ocean acidification. Marine snails – pteropods – live in this top layer of the ocean. The corrosive properties of the water caused shells of live animals to be severely dissolved and this demonstrates how vulnerable pteropods are. Ocean acidification, resulting from the addition of human-induced carbon dioxide, contributed to this dissolution. "
Co-author and science cruise leader, Dr Geraint Tarling from BAS, says:
"Although the upwelling sites are natural phenomena that occur throughout the Southern Ocean, instances where they bring the 'saturation horizon' above 200m will become more frequent as ocean acidification intensifies in the coming years. As one of only a few oceanic creatures that build their shells out of aragonite in the polar regions, pteropods are an important food source for fish and birds as well as a good indicator of ecosystem health. The tiny snails do not necessarily die as a result of their shells dissolving, however it may increase their vulnerability to predation and infection consequently having an impact to other parts of the food web."
Co-author, Dr Dorothee Bakker from the University of East Anglia, says:
"Climate models project a continued intensification in Southern Ocean winds throughout the 21st century if atmospheric carbon dioxide continues to increase. In turn, this will increase wind-driven upwelling and potentially make instances of deep water – which is under-saturated in aragonite – penetrating into the upper ocean more frequent. Current predictions are for the 'saturation horizon' for aragonite to reach the upper surface layers of the Southern Ocean by 2050 in winter and by 2100 year round. "
This research was funded by the UK Natural Environment Research Council (NERC) and the European Union Marie Curie Early Stage Training Network.
Issued by British Antarctic Survey
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Notes for Editors:
Extensive dissolution of live pteropods in the Southern Ocean by N. Bednaršek, G. A. Tarling, D. C. E. Bakker, S. Fielding, E. M. Jones, H. J. Venables, P. Ward, A.Kuzirian, B. Lézé, R. A. Feely, and E. H. Murphy is published in the journal Nature Geoscience.
**Stunning broadcast-quality footage and stills of Antarctica, the RRS James Clark Ross and pteropod snails are available from the BAS Press Office as above or to download at: ftp://ftp.nerc-bas.ac.uk/pub/photo/PR-2012-13-Tarling/
*Carbon cycle - the method by which carbon is absorbed and released by the ocean.
Upwelling - an oceanographic phenomenon that involves wind-driven motion of cooler, and usually nutrient-rich water towards the ocean surface, replacing the warmer, usually nutrient-depleted surface water.
Aragonite is a crystal form of calcium carbonate that can dissolve rapidly when its saturation in seawater falls below a threshold level. Aragonite saturation generally decreases with depth and the threshold level where dissolution occurs, called the 'saturation horizon', is usually reached at around 1000m depth. Ocean acidification has caused this horizon to shallow in modern times. It has been predicted that the saturation horizon may reach the surface across much of the Southern Ocean by 2100.
The pteropod-snail (Limacina helicina antarctica) – is the size of a pinhead (1cm), lives to depths of 200m, and is an abundant species in Southern Ocean waters.
Polar Regions are where ocean acidification effects are most likely to be seen first, since their colder temperatures mean a large susceptibility of the aragonite saturation to the absorption of anthropogenic carbon dioxide.
British Antarctic Survey (BAS), a component of the Natural Environment Research Council (NERC), delivers and enables world-leading interdisciplinary research in the Polar Regions. Its skilled science and support staff based in Cambridge, Antarctica and the Arctic, work together to deliver research that uses the Polar Regions to advance our understanding of Earth as a sustainable planet. Through its extensive logistic capability and know-how BAS facilitates access for the British and international science community to the UK polar research operation. Numerous national and international collaborations, combined with an excellent infrastructure help sustain a world leading position for the UK in Antarctic affairs. For more information visit www.antarctica.ac.uk
The Natural Environment Research Council (NERC) is the UK's main agency for funding and managing world-class research, training and knowledge exchange in the environmental sciences. It coordinates some of the world's most exciting research projects, tackling major issues such as climate change, environmental influences on human health, the genetic make-up of life on earth, and much more. NERC receives around Ł320 million a year from the government's science budget, which it uses to fund independent research and training in universities and its own research centres. www.nerc.ac.uk
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The University of East Anglia (UEA) is ranked in the top two per cent of universities in the world and was ranked joint fourth for student satisfaction in the 2012 National Student Survey. It is in the UK Top 10 for research citations and is a leading member of the Norwich Research Park - one of Europe's biggest concentrations of researchers in the fields of environment, health and plant science. www.uea.ac.uk.
UEA's School of Environmental Sciences is one of the longest established, largest and most fully developed of its kind in Europe. In the last Research Assessment Exercise, 95 per cent of the school's activity was classified as internationally excellent or world leading, and it was ranked 3rd in the Guardian League Table 2013. It was ranked joint second in the country for teaching in the 2012 National Student Survey. www.uea.ac.uk/env
Audrey Stevens | Source: EurekAlert!
Further information: www.bas.ac.uk
Further Reports about: Antarctic Predators > Atmospheric > Atmospheric Administration > calcium carbonate > Environment Research > environmental risk > Environmental Sciences > Geoscience > marine ecosystem > Natural Environment Research > NERC > NOAA > ocean acidification > Oceanic > Pacific Ocean > Polar Day > polar region > Woods Hole Oceanographic
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