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Contact: Jo Bowler
j.bowler@exeter.ac.uk
44-078-273-09332
University of Exeter

Study reveals leakage of carbon from land to rivers, lakes, estuaries and coastal regions

IMAGE: A new study has revealed leakage of stored carbon from land to rivers, lakes, estuaries and coastal regions.

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When carbon is emitted by human activities into the atmosphere it is generally thought that about half remains in the atmosphere and the remainder is stored in the oceans and on land. New research suggests that human activity could be increasing the movement of carbon from land to rivers, estuaries and the coastal zone indicating that large quantities of anthropogenic carbon may be hidden in regions not previously considered.

The research, published in Nature Geoscience and led by researchers from the Université Libre de Bruxelles, the University of Exeter, Laboratoire des Sciences du Climat et l'Environnement, the University of Hawai'i and ETH Zürich, has for the first time shown that increased leaching of carbon from soil, mainly due to deforestation, sewage inputs and increased weathering, has resulted in less carbon being stored on land and more stored in rivers, streams, lakes, reservoirs, estuaries and coastal zones – environments that are together known as the 'land-ocean aquatic continuum'.

The study reviewed previously published data and showed that a significant fraction of the carbon emitted through human activity that is taken up by the land is not actually stored there, but in the aquatic continuum.

Pierre Regnier from Université Libre de Bruxelles said: "The budget of anthropogenic CO2 reported by the Intergovernmental Panel on Climate Change (IPCC) currently does not take into account the carbon leaking from terrestrial ecosystems to rivers, estuaries and coastal regions. As a result of this leakage, the actual storage by terrestrial ecosystems is about 40% lower than the current estimates by the IPCC."

The 'land-ocean aquatic continuum', has not previously been considered an important carbon sink. Future assessments of carbon storage must now take into account the surface areas of the land-ocean aquatic continuum to ensure accurate estimation of carbon storage. This will also require an improved knowledge of the mechanisms controlling the degradation, preservation and emissions of carbon along the aquatic continuum to fully understand the impact of human activity on carbon transfer.

Professor Pierre Friedlingstein from the University of Exeter said: "Carbon storage in sediments in these rivers and coastal regions could present a more secure environment than carbon stored in soil on land. As soil warms up stored carbon can be lost to the atmosphere. The chances of this occurring in wet sediments are reduced."

A fraction of the carbon that leaches from land to the land-ocean aquatic continuum is emitted back to the atmosphere, while another fraction is sequestered in sediments along the continuum. Only a minor part, about 10%, eventually reaches the open ocean.

Philippe Ciais from the Laboratoire des Sciences du Climat et l'Environnement said: "Our revisited global carbon budget which includes the land-ocean aquatic continuum is still entailed with significant uncertainties. It is however fully consistent with the observed growth rate of atmospheric CO2. Our downward revision of the land carbon storage is also in agreement with very recent results from forest inventories."

A significant part of the carbon storage thought to be offered by ecosystems on land - mainly forests - is thus negated by this leakage of carbon from soils to aquatic systems, and to the atmosphere.

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The study received funding from the European Union's Seventh Framework Program (FP7/2007) under grant agreement number 283080, project GEOCARBON. Published in Nature Geoscience under the title 'Anthropogenic perturbation of the carbon fluxes from land to ocean' on 09 June : http://dx.doi.org/10.1038/NGEO1830

About the University of Exeter

The Sunday Times University of the Year 2012-13, the University of Exeter is a Russell Group university and in the top one percent of institutions globally. It combines world-class research with very high levels of student satisfaction. Exeter has over 18,000 students and is ranked 7th in The Sunday Times University Guide, 10th in the UK in The Times Good University Guide 2012 and 10th in the Guardian University Guide. In the 2008 Research Assessment Exercise (RAE) 90% of the University's research was rated as being at internationally recognised levels and 16 of its 31 subjects are ranked in the top 10, with 27 subjects ranked in the top 20.

The University has invested strategically to deliver more than £350 million worth of new facilities across its campuses for 2012, including landmark new student services centres - the Forum in Exeter and The Exchange in Cornwall - and world-class new facilities for Biosciences, the Business School and the Environment and Sustainability Institute.

http://www.exeter.ac.uk

For further information:

Dr Jo Bowler
University of Exeter Press Office
Office: +44 (0)1392 722062
Mobile: +44(0)7827 309 332
Twitter: @UoE_ScienceNews
j.bowler@exeter.ac.uk



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