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| Home > Publications database > Transfer and early diagenesis of biogenic silica oxygen isotope signals during settling and sedimentation of diatoms in a temperate freshwater lake (Lake Holzmaar, Germany) |
| Journal Article | PreJuSER-57266 |
; ; ; ;
2006
Elsevier
New York, NY [u.a.]
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Please use a persistent id in citations: doi:10.1016/j.gca.2006.07.001
Abstract: We have investigated the transfer of oxygen isotope signals of diatomaccous silica (delta P-18(diatom)) from the epilimnion (0-7 m) through the hypolimnion to the lake bottom (similar to 20 m) in freshwater Lake Holzmaar, Germany. Sediment-traps were deployed in 2001 at depths of 7 and 16 m to harvest fresh diatoms every 28 days. The 7 m trap collected diatoms from the epilimnion being the main zone of primary production, while the 16 m trap collected material already settled through the hypolimnion. Also a bottom sediment sample was taken containing diatom frustules from approximately the last 25 years. The delta O-18(diatom) values of the 7 m trap varied from 29.4 parts per thousand in spring/ autumn to 26.2 parts per thousand in summer according to the temperature dependence of oxygen isotope fractionation and represent the initial isotope signal in this study. Remarkably, despite the short settling distance delta(18)Odimom values of the 7 and the 16 m trap were identical only during spring and autumn seasons while from April to September delta O-18(diatom) values of the 16 m trap were roughly similar to 1 parts per thousand enriched in O-18 compared to those of the 7 m trap. Isotopic exchange with the isotopically lighter water of the hypolimnion would shift the delta O-18(diatom) value to lower values during settling from 7 to 16 m excluding this process as a cause for the deviation. Dissolution of opal during settling with intact organic coatings of the diatom cells and near neutral pH of the water should only cause a minor enrichment of the 16 m values. Nevertheless, opal from the bottom sediment was found to be 2.5%. enriched in O-18 compared to the weighted average of the opal from the 7 m trap. Thus, resuspension of bottom material must have contributed to the intermediate delta O-18(diatom) signal of the 16 m trap during summer. Dissolution experiments allowed further investigation of the cause for the remarkably enriched delta O-18(diatom), value of the bottom sediment. Experiments with different fresh diatomaceous materials show an increase of opaline O-18 at high pH values which is remarkably reduced when organic coatings of the cells still exist or at near neutral pH. In contrast, high-pH conditions do not affect the delta O-18(diatom) values of sub-fossil and even fossil opal. IR analyses show that the O-18 enrichment of the sedimentary silica is associated with a decrease in Si-OH groups and the formation of Si-O-Si linkages. This indicates a silica dehydroxylation process as cause for the isotopic enrichment of the bottom sediment. Silica dissolution and dehydroxylation clearly induce a maturation process of the diatom oxygen isotope signal presumably following an exponential behaviour with a rapid initial phase of signal alteration. The dynamics of this process is of particular importance for the quantitative interpretation of sedimentary delta O-18(diatom) values in terms of palaeothermometry. (c) 2006 Elsevier Inc. All rights reserved.
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