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The Holocene Sapropel S1 in the Ionian Sea : paleoceanography and geochemistry : (Teil B: Laborarbeit) (1998)

Schefuß, Enno [VerfasserIn]

Kiel

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Keywords: Hochschulschrift

Type of Medium: Online Resource

Pages: 1 Online-Ressource (108 Seiten = 5 MB) , Graphen, Karte

Edition: Online-Ausgabe 2023

URL: https://oceanrep.geomar.de/id/eprint/50862/

Language: English

Note: Zusammenfassung in deutscher und englischer Sprache

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The Holocene Sapropel S1 in the Ionian Sea: paleoceanography and geochemistry (1998)

Schefuß, Enno

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Publication Date: 2023-08-10

Description: Sequences of sapropels intercalated with hemipelagic mud are a prominent feature of most eastern Mediterranean sediments. The most recent sapropel (S 1 ), recovered in a box core from the Medina Rise in the Ionian Sea, was sampled at ultra-high resolution to evaluate the paleoceanographic conditions during its formation, to characterise its organic matter and to determine post-depositional effects of diagenesis on the geochemistry. The paleoceanographic reconstruction was based on oxygen and carbon isotope compositions of planktonic foraminifera and planktonic foraminiferal census counts to estimate paleo sea surface temperatures. Combined, these results indicate a depleted surface water salinity of about 4 psu and, thus, also surface water density, which at least weakened vertical circulation and thus, bottom water ventilation during sapropel formation. However, sapropel formation may not have been caused by depleted bottom water oxygen levels alone. Significantly increased rates of primary production during times of sapropel deposition are inferred from enhanced barium accumulation rates. The immobility and stability of barium as barite in most Mediterranean sediments makes it a valuable proxy for paleoproductivity in this case. Lipid analyses were conducted for characterisation of sapropel organic matter and estimation of possible carbon sources. Results of the extractable lipids clearly indicate a predominantly marine origin, with dinoflagellates, coccolithophorid algae, other microalgae and eubacteria as main contributing organisms. Comparison with overlying oxidised samples reveals no enrichment of terrestrial organic matter. The ratio of unsaturated long-chain-ketones is strongly affected by sapropel oxidation, so that the derived paleotemperature estimates should used with caution. Elemental concentrations were measured to recognise effects of the post-depositional oxidation front prograding into the formerly anoxic sediment. As a consequence, the present thickness of the organic-rich layer is only a fifth of its original extent. The maximum dissolution effect of diagenetic reactions cannot explain the observed depletions in carbonate content in the sapropel. Decreased carbonate production during sapropel formation is therefore concluded. Diagenetic relocation of many redox-sensitive elements has occurred. Most elements expected to be associated with organic matter or sulphide-rich sediments display maximum concentrations above or below the present sapropel layer. Similarities are observed in the geochemical behaviour of Ni, Cu, Zn, and Co; and of Mo, V, and Sb. Se exhibits a large, sharp concentration peak and is inferred to be a useful marker for the present boundary of oxic to post-oxic conditions. A model of the oxygen-flux into the sapropel interval closely resembles the observed enrichments of oxidised elements. The sapropel is thus still being oxidised.

Type: Thesis , NonPeerReviewed

Format: text

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OceanRep: Thesis - not published by a publisher

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Controls on the distributions of GDGTs and n-alkane isotopic compositions in sediments of the Amazon River Basin (2022)

Bertassoli Jr., Dailson J ; Häggi, Christoph ; Chiessi, Cristiano M. ; [et al.]

ELSEVIER SCIENCE BV

In: EPIC3Chemical Geology, ELSEVIER SCIENCE BV, 594, pp. 120777, ISSN: 0009-2541

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Publication Date: 2022-02-26

Description: ARTICLE INFO Keywords: Amazonia GDGT Amazon River Biomarkers Compound-specific isotopes N-Alkanes Paleoclimate proxies Plant waxes ABSTRACT Lipid biomarker proxies from terrigenous sediments have been extensively used to understand variations in paleoenvironmental conditions, but many of the mechanisms affecting these proxies during riverine transport are still poorly understood. Here, we analyze glycerol dialkyl glycerol tetraether (GDGT) distributions and n-alkane isotopic compositions of soils and sediments from the Amazon River Basin. Our dataset includes suspended sediments of the Amazon River and its main tributaries, as well as soils and sediments of the Xingu River, a large clearwater tributary draining the easternmost part of the Amazon River Basin. Our sampling design aimed at understanding the processes behind spatially distinct GDGT distributions and n-alkane isotopic signatures across lowland Amazonia. Gradual changes in the fractional abundances of isoprenoid GDGTs and in 5- and 6- methyl branched GDGT ratios in suspended sediments of the Amazon River towards its mouth suggest that riverine production is an increasingly important control on the distribution of GDGTs in the lower parts of the system, while values from the western parts are more in line with a dominant soil sourcing. In the Xingu River, indices based on the fractional abundances of branched GDGTs and long-chain n-alkanes demonstrate a strong contri- bution of terrestrial organic material during the high-water season and an important aquatic component during low-water season. Meanwhile, average stable carbon (δ13C) and hydrogen (δD) isotopic signatures of long-chain n-alkanes in soils, riverbed and suspended sediments of the Xingu River are similar and reinforce the relatively conservative behaviour of these proxies within large river systems. The average compound-specific δ13C signa- tures of sediments in the Xingu River are within the expected range for C3 vegetation and do not seem to capture the signals from the nearby deforested areas. n-Alkanes δD signals in the Xingu Basin are similar to values ob- tained in the Amazon River mouth and indicate that n-alkanes sourced from easternmost Amazonian lowlands may predominate over signals from western areas.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Climate control on terrestrial biospheric carbon turnover (2021)

Eglinton, Timothy I. ; Galy, Valier ; Hemingway, Jordon D. ; [et al.]

National Academy of Sciences

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Publication Date: 2022-10-26

Description: © The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Eglinton, T. I., Galy, V. V., Hemingway, J. D., Feng, X., Bao, H., Blattmann, T. M., Dickens, A. F., Gies, H., Giosan, L., Haghipour, N., Hou, P., Lupker, M., McIntyre, C. P., Montluçon, D. B., Peucker-Ehrenbrink, B., Ponton, C., Schefuß, E., Schwab, M. S., Voss, B. M., Wacker, L., Wu, Y., & Zhao, M. Climate control on terrestrial biospheric carbon turnover. Proceedings of the National Academy of Sciences of the United States of America, 118(8), (2021): e2011585118, htps://doi.org/ 10.1073/pnas.2011585118.

Description: Terrestrial vegetation and soils hold three times more carbon than the atmosphere. Much debate concerns how anthropogenic activity will perturb these surface reservoirs, potentially exacerbating ongoing changes to the climate system. Uncertainties specifically persist in extrapolating point-source observations to ecosystem-scale budgets and fluxes, which require consideration of vertical and lateral processes on multiple temporal and spatial scales. To explore controls on organic carbon (OC) turnover at the river basin scale, we present radiocarbon (14C) ages on two groups of molecular tracers of plant-derived carbon—leaf-wax lipids and lignin phenols—from a globally distributed suite of rivers. We find significant negative relationships between the 14C age of these biomarkers and mean annual temperature and precipitation. Moreover, riverine biospheric-carbon ages scale proportionally with basin-wide soil carbon turnover times and soil 14C ages, implicating OC cycling within soils as a primary control on exported biomarker ages and revealing a broad distribution of soil OC reactivities. The ubiquitous occurrence of a long-lived soil OC pool suggests soil OC is globally vulnerable to perturbations by future temperature and precipitation increase. Scaling of riverine biospheric-carbon ages with soil OC turnover shows the former can constrain the sensitivity of carbon dynamics to environmental controls on broad spatial scales. Extracting this information from fluvially dominated sedimentary sequences may inform past variations in soil OC turnover in response to anthropogenic and/or climate perturbations. In turn, monitoring riverine OC composition may help detect future climate-change–induced perturbations of soil OC turnover and stocks.

Description: This work was supported by grants from the US NSF (OCE-0928582 to T.I.E. and V.V.G.; OCE-0851015 to B.P.-E., T.I.E., and V.V.G.; and EAR-1226818 to B.P.-E.), Swiss National Science Foundation (200021_140850, 200020_163162, and 200020_184865 to T.I.E.), and National Natural Science Foundation of China (41520104009 to M.Z.).

Keywords: Radiocarbon ; Plant biomarkers ; Carbon turnover times ; Fluvial carbon ; Carbon cycle

Repository Name: Woods Hole Open Access Server

Type: Article

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