29. October 2013: Thawing Permafrost: The speed of coastal erosion in Eastern Siberia has nearly doubled
Bremerhaven, October 29, 2013. The high cliffs of Eastern Siberia – which mainly consist of permafrost – continue to erode at an ever quickening pace. This is the conclusion which scientists of the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research have reached after their evaluation of data and aerial photographs of the coastal regions for the last 40 years. According to the researchers, the reasons for this increasing erosion are rising summer temperatures in the Russian permafrost regions as well the retreat of the Arctic sea ice. This coastal protection recedes more and more on an annual basis. As a result, waves undermine the shores. At the same time, the land surface begins to sink. The small island of Muostakh east of the Lena Delta is especially affected by these changes. Experts fear that it might even disappear altogether should the loss of land continue.
The interconnectedness is clear and unambiguous: The warmer the east Siberian permafrost regions become, the quicker the coast erodes. “If the average temperature rises by 1 degree Celsius in the summer, erosion accelerates by 1.2 metres annually,“ says AWI geographer Frank Günther, who investigates the causes of the coastal breakdown in Eastern Siberia together with German and Russian colleagues, and who has published his findings in two scientific articles.
In these studies, he and his team evaluated high resolution air and satellite photos from 1951 to 2012 as well as measurements of the past four years. In addition, the researchers surveyed four coastal sections along the Laptev Sea (see map) and on the island of Muostakh.
One example of the changes documented in their research are the warming summers. While the temperatures during the period of investigation exceeded zero degrees Celsius on an average of 110 days per year, the scientists counted a total of 127 days in the years 2010 and 2011. The following year, 2012, the number of days with temperatures above freezing increased to 134.
This increase in temperature is not without consequences. Whereas a thick layer of sea ice used to protect the frozen soil almost all year round, it now recedes in this part of the Arctic for increasing periods of time during the summer months. The number of summer days on which the sea ice in the southern Laptew Sea vanishes completely grows steadily. “During the past two decades, there were, on average, fewer than 80 ice-free days in this region per year. During the past three years, however, we counted 96 ice-free days on average. Thus, the waves can nibble at the permafrost coasts for approximately two more weeks each year,“ explains AWI permafrost researcher Paul Overduin.
The waves dig deep recesses into the base of the high coasts. The result: The undermined slopes break off bit by bit. During the past 40 years, the coastal areas surveyed retreated on average 2.2 meters per year. “During the past four years, this value has increased at least 1.6 times, in certain instances up to 2.4 times to reach 5.3 meters per year,“ says Paul Overduin.
For the little island of Muostakh east of the harbour town of Tiksi, this may well mean extinction. “In fewer than one hundred years, the island will break up into several sections, and then it will disappear quickly,“ predicts Frank Günther. On its northern tip, the island shows fluctuating annual erosion rates between 10 and 20 meters per year, and it has already lost 24 per cent of its area in the past 60 years. Because the subsurface here consists of more than 80 per cent of ice that has formed within the soil, and since the ice is gradually melting, the island’s surface collapses as well. The scientists speak of a 34 per cent loss in volume. “If one bears in mind that it took tens of thousands of years for the island to form through sedimentary deposition, then its disintegration is proceeding at a very rapid pace,“ says Paul Overduin.
In addition, long-term studies conducted by AWI scientists show the impact of coastal erosion for the sea as well. Depending on the kind of erosion and the particular structure of the coast, between 88 and 800 tons of plant-, animal, and microorganism-based carbon are currently washed into the sea per year and kilometer of coastline – these are materials that had been sealed in the permafrost thus far. With regard to the Laptev Sea, this translates into approximately one eighth of the organic carbon that is transported by the Lena River annually – and the Lena is a river that encompasses a drainage basin the size of the Mediterranean. “We can, however, assume larger quantities if this accelerating coastal erosion we currently observe continues,“ the scientists write in their subject-specific paper for the Biogeosciences special volume: “Interactions between the land and sea in the Lena Delta Region.“ Once in the water, carbon may turn into carbon dioxide and, as a result, contribute to the acidification of the oceans: the composition of our oceans becomes less alkaline.
These studies were conducted as part of the PROGRESS project which is funded by the Federal Ministry of Education and Research. PROGRESS is the acronym for Potsdamer Forschungs- und Technologieverbund für Naturgefahren, Klimawandel und Nachhaltigkeit (Potsdam Research Cluster for Georisk Analysis, Environmental Change and Sustainability). In addition to the Alfred Wegener Institute, departments of the Deutsches GeoForschungsZentrum (GFZ German Research Centre for Geosciences), the Potsdam-Institut für Klimafolgenforschung (Potsdam Institute for Climate Impact Research), as well as the Hasso-Plattner-Institut für Softwaresystemtechnik (Hasso Plattner Institute for Software Systems Engineering) are participating in this project. For more information on PROGRESS, please visit the project website www.earth-in-progress.de.
Notes for Editors
The two studies have been published under following titles:
- F. Günther, P. P. Overduin, A. V. Sandakov, G. Grosse and M. N. Grigoriev: Short- and long-term thermo-erosion of ice-rich permafrost coasts in the Laptev Sea region Biogeosciences, 10, 4297–4318, 2013, doi:10.5194/bg-10-4297-2013 (Link to the special edition „Interactions between the land and sea in the Lena Delta Region“)
- F. Günther, P. P. Overduin, A. Baranskaya, T. Opel and M. N. Grigoriev: Observing Muostakh Island disappear: erosion of a ground-ice-rich coast in response to summer warming and sea ice reduction on the East Siberian shelf, The Cryosphere Discuss., 7, 4101–4176, 2013, doi:10.5194/tcd-7-4101-2013
Your scientific contact partners at the Alfred Wegener Institute are:
· Frank Günther (Tel.: +49-(0)331-288-2156 ; E-Mail: Frank.Guenther(at)awi.de and
· Dr. Paul Overduin, (Tel.: +49-(0)331-288-2113; E-Mail: Paul.Overduin(at)awi.de).
Your contact person in the Department of Communications and Media Relations is Kerstin Holzheimer, (Tel.: +49 471 4831-1376, e-mail: medien(at)awi.de).
The Alfred Wegener Institute conducts research in the Arctic and Antarctic and in the high and mid-latitude oceans. The Institute coordinates German polar research and provides important infrastructure such as the research ice breaker Polarstern and stations in the Arctic and Antarctic to the international scientific world. The Alfred Wegener Institute is one of the 18 research centres of the Helmholtz Association, the largest scientific organisation in Germany.
Clear signs of erosion
Scientists are investigating a coastal area, where waves have hollowed out the thawing cliff line. The melt water which runs down the cliff intensives erosion additionally. Photos: M.N. Grigoriev, Alfred Wegener Institute
Map of the research locations
This map shows in red lines the four different coastal areas, where scientists had made close examinations of coastal erosion. Map: F. Guenther, Alfred Wegener Institute
Coastal erosion is driven by two processes. The first is called „thermal denudation“ and means the thawing of the upper layer of permafrost. Close to the cliff lines this thawing is followed by a break up of the whole cliff line. The second process – calles thermal abrasion – is working at the bottom of the cliff. Here waves are hollowing out the cliff, which leads to further breakups. Infographics: Yves Nowak, Alfred Wegener Institute
A shrinking island
This photo illustration shows the erosion of the east-Siberian island Muostakh. The blue line marks ist coastal line in the year 1951, the red line presents its status in the year 2012. In the upper right corner one can see an aerial picture of the island’s northern tip, taken in the year 2012. At its narrowest point the island is shrinking more than four meters per year. Illustration: F. Guenther, Alfred Wegener Institute