A revised age model for core PG1351 from Lake El’gygytgyn,Chukotka, based on magnetic susceptibility variations tuned to northern hemisphere insolation variations |
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Authors: | Norbert R. Nowaczyk Martin Melles Pavel Minyuk |
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Affiliation: | (1) GeoForschungsZentrum Potsdam, Section 3.3 — “Climate Dynamics and Sediments”, Telegrafenberg Haus C, D-14474 Potsdam, Germany;(2) Institute for Geophysics and Geology, University Leipzig, Talstrasse 35, D-04103 Leipzig, Germany;(3) North-East Interdisciplinary Science Research Institute (NEISRI), Russian Academy of Sciences, 16 Portovaya St., 685000 Magadan, Russia |
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Abstract: | A combined analysis of magnetic susceptibility, total organic carbon (TOC), biogenic silica (opal), and TiO2 content of the 12.6 m long composite core PG1351 recovered from Lake El’gygytgyn, Chukotka Peninsula, indicate a clear response of the lacustrine sedimentary record to climate variations. The impact is not direct, but through variations in oxygenation of the bottom waters. Mixing of the water body is typical for warmer climates, whereas the development of a stratified water body associated with anoxic conditions at the lake floor appears during cold climates. Oxic conditions lead to a good magnetite preservation and thus to high magnetic susceptibilities, but also to a large-scale degradation of organic matter, as reflected by low TOC (total organic carbon) values. During anoxic conditions, magnetite is severely dissolved yielding very low susceptibility values, whereas organic matter is best preserved, reflected by high TOC values. Hence, in general, neither susceptibility reflects the lithogenic fraction, nor does TOC reflect bioproductivity in case of the studied El’gygytgyn sediments. Based on available infrared stimulated luminescence (IRSL) dating, the obtained susceptibility pattern of core PG1351 shows an obvious correlation to northern hemisphere insolation variations, with a dominating impact of the Earth’s 18 and 23 kyr precessional cycles for the upper half of PG1351, that is, during the past 150 ka. Therefore, the whole susceptibility record, together with biogenic silica (as a proxy for bioproductivity), TOC (as an indicator for redox conditions), and TiO2 (as a proxy for lithogenic input), was systematically tuned to the northern hemisphere insolation yielding an age of about 250 ka for the base of the composite core. This is the fifth in a series of eleven papers published in this special issue dedicated to initial studies of El'gygytgyn Crater Lake and its catchment in NE Russia. Julie Brigham-Grette, Martin Melles, Pavel Minyuk were guest editors of this special issue. |
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Keywords: | Solar forcing Magnetic susceptibility Lake El’ gygytgyn Siberia Lake sediments |
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