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Hydrocarbon and coprostanol levels in seawater, sea-ice algae and sediments near Davis station in eastern Antarctica: A regional survey and preliminary results for a field fuel spill experiment |
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| Authors: | Graham Green Jennifer H Skerratt Rhys Leeming Peter D Nichols |
| Institution: | a Antarctic and Southern Ocean Environment Cooperative Research Centre, University of Tasmania, GPO Box 252C, Hobart, Tasmania 7001, Australia b CSIRO Division of Oceanography, GPO Box 1538, Hobart, Tasmania 7001, Australia |
| Abstract: | A survey of hydrocarbons and the sterol coprostanol, together with a hydrocarbon degradation experiment, was conducted in a coastal marine environment in East Antarctica. Aliphatic hydrocarbon levels in sea-ice algae were 1.9–12.5 mg m−2 and in seawater particulate matter 0.07–0.17 μg l−1. Sea-ice algae contained the diatom biomarker, the highly branched isoprenoid (ip) diene ipC25:2, and Southern Ocean seawater particulate matter samples were distinguished from near shore samples by the presence of nC21:6. Sea-ice algae and seawater particulate matter samples showed a predominance of even chain n-alkanes. Hydrocarbon levels in sediment samples from anoxic fjord basins were high (45–48 μg g−1) compared to a sub-tidal marine sample (0.7 μg g−1), and were predominantly of bacterial origin. Contaminants detected were linear alkyl benzenes in sewage effluent from Davis station, and polycyclic aromatic hydrocarbons (PAH) which were present in very low levels (parts per trillion) throughout the environment. High levels of 2,6-dimethylnaphthalene were found in anoxic sediment from Ellis Fjord and may arise from a novel bacterial source. Coprostanol concentrations in sediments ranged from 67 to 1280 ng g−1. A dual origin is proposed from marine mammalian faeces and, at several sites, from conversion of algal-derived sterols by anaerobic bacteria. Future studies examining the impact of human sewage from scientific bases or other ventures should use care in interpreting results when such high baseline values, from marine mammalian input, may occur naturally around the Antarctic coast. The potential exists, however, for the technique to distinguish between human and mammalian inputs through measurement of the coprostanol to epicoprostanol ratio, particularly if undertaken with appropriate comparative sampling. Results for a hydrocarbon degradation experiment where a light fuel was applied to an Antarctic beach, showed loss of up to 99% of the fuel within 2 months, mainly by volatilization. |
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