In the current issue of Science, the scientists from New York and Bremerhaven for the first time present chronologically resolved measurements of the 3He and 4He flux of interplanetary and terrestrial dust particles preserved in the snow of the Antarctic. According to current estimates, about 40,000 tons of extraterrestrial matter hit the Earth every year. "During its journey through interplanetary space, the cosmic dust is charged with helium atoms by the solar wind. At his point they are highly enriched with the rare helium isotope 3He," explains Dr Hubertus Fischer, head of the research program "New keys to polar climate archives" at the Alfred Wegener Institute. "Cosmic dust particles in the size of a few micrometers enter the Earth's atmosphere unharmed and carry their helium load unchanged to the Earth's surface where they are, among other places, preserved in the snow and ice of the polar ice caps." Due to the high temporal resolution uniquely to be found in ice cores, it has now been possible for the first time to determine the temporal variability of this helium flux between glacial and interglacial periods along with the 3He and 4He ratios of these exotic particles. The results are expected to have significant impact on interpretation of high-resolution climate archives, such as ice, marine and lake sediment cores.
This, however, is not all the helium isotope method has to offer. The ratio of 4He in terrestrial dust to the dust concentration itself reveals a marked difference between the last Ice Age and the current warm period. As . Gisela Winckler, head of the working group 'Isotope Tracers and Constant Flux Proxies' at L-DEO says, "the terrestrial dust coming down on Antarctica during the Ice Age obviously is not the same as that during warm periods. This may be due to the mineral dust originating from different regional sources or to changes in weathering, the process responsible for production of dust." Both scientists now want to intensify their collaboration even further and investigate the details of this phenomenon.
Data for this study have been collected within the European Project for Ice Coring in Antarctica (EPICA). As the German partner within EPICA, Alfred Wegener Institute is responsible for the Dronning Maud Land drilling operations. The EPICA project is carried out by a consortium of ten European countries (Belgium, Denmark, France, Germany, UK, Italy, the Netherlands, Norway, Sweden and Switzerland). Coordinated under the roof of the European Science Foundation (ESF), EPICA is funded by the participating countries and the European Union.
The manuscript "30,000 Years of Cosmic Dust in Antarctic Ice" will be published in Science on July 28, 2006.
Bremerhaven, July 27, 2006
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Your contact personat Alfred Wegener Institue is Dr Hubertus Fischer (0471-4831 1174; email firstname.lastname@example.org) and in the public relations department. Angelika Dummermuth (0471-4831 1742; email email@example.com). For further information from LDEO, please contact Dr Gisela Winckler (++1-845-365 8756 or firstname.lastname@example.org) and for media contact: Mary Tobin (Tel. ++1-212-854 9485; email: email@example.com) or Ken Kostel (Tel. ++1-212-854 9729; email: firstname.lastname@example.org). Printable images can be found on our webpage at http://www.awi-bremerhaven.de/AWI/Presse/PM/index-d.html.
The Alfred Wegener Institute carries out research in the Arctic and Antarctic as well as in the high and mid latitude oceans. The institute coordinates German polar research and makes available to international science important infrastructure, e.g. the research ice breaker "Polarstern" and research stations in the Arctic and Antarctic. AWI is one of 15 research centres within the Helmholtz-Gesellschaft, Germany's largest scientific organization.
Lamont-Doherty Earth Observatory (L-DEO), member of the Earth Institute at Columbia University, is one of the world's leading research centres examining the planet from its core to its atmosphere, across every continent and every ocean. From global climate change to earthquakes, volcanoes, environmental hazards and beyond, Observatory scientists provide the basic knowledge of Earth systems needed to inform the future health and habitability of our planet.
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