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dc.contributor.author Isaksson E.
dc.contributor.author Hermanson M.
dc.contributor.author Hicks S.
dc.contributor.author Igarashi M.
dc.contributor.author Kamiyama K.
dc.contributor.author Motoyama H.
dc.contributor.author Watanabe O.
dc.contributor.author Moore J.
dc.contributor.author Muir D.
dc.contributor.author Pohjola V.
dc.contributor.author Vaikmäe R.
dc.contributor.author van de Wal R.S.W.
dc.date.accessioned 2022-02-09T04:37:01Z
dc.date.available 2022-02-09T04:37:01Z
dc.date.issued 2003
dc.identifier https://elibrary.ru/item.asp?id=41815772
dc.identifier.citation Physics and Chemistry of the Earth, Parts A/B/C, 2003, 28, 28-32, 1217-1228
dc.identifier.issn 1474-7065
dc.identifier.uri https://repository.geologyscience.ru/handle/123456789/35153
dc.description.abstract Ice cores from the relatively low-lying ice caps in Svalbard have not been widely exploited in climatic and environmental studies due to uncertainties about the effect of melt water percolation. However, results from two recent Svalbard ice cores, at Lomonosovfonna (1250 m asl) and Austfonna (750 m asl), have shown that with careful site selection, high-resolution sampling and multiple chemical analyses, it is possible to recover ice cores with partly preserved annual signals. These cores are estimated to cover at least the past 600 years and have been dated using a combination of known reference horizons and glacial modeling. The δ18O data from both Lomonosovfonna and Austfonna ice cores suggest that the 20th century was the warmest during the past 600 years. A comparison of the ice core and sea ice records from this period suggests that sea ice extent and Austfonna δ18O are linked over the past 400 years. This may reflect the position of the storm tracks and their direct influence on the relatively low altitude Austfonna. Lomonosovfonna may be less sensitive to such changes and primarily record atmospheric changes due to its higher elevation. The anthropogenic influence on Svalbard environment is illustrated by increased levels of non-sea-salt sulphate, nitrate, acidity, fly-ash and organic contaminants particularly during the second half of 1900s. Decreased concentrations of some components in recent decades most likely reflect emission and use restrictions. However, some current-use organic pesticide compounds show growing concentrations in near surface layers.
dc.subject Ice core chemistry
dc.subject Climate variability
dc.subject Organic contaminants
dc.subject Pollen
dc.subject Svalbard
dc.title ICE CORES FROM SVALBARD - USEFUL ARCHIVES OF PAST CLIMATE AND POLLUTION HISTORY
dc.type Статья


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