Dynamic sedimentary conditions during periods of enhanced sequestration of organic carbon in the central southern Tethys at the onset of the Cenozoic global cooling

Stagnant bottom-water conditions (e.g., low and stable redox potential, long-water residence time) is an assumption commonly used to explain the preservation and burial of high amounts of organic carbon (C-org) in marine sediments. Rather than stagnant conditions, the evidence presented here from no...

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Bibliographic Details
Published in:Sedimentary Geology
Main Authors: Berrocoso, Alvaro Jimenez, Bodin, Stephane, Wood, Jonathan, Calvert, Stephen E., Mutterlose, Joerg, Petrizzo, Maria Rose, Redfern, Jonathan
Format: Article in Journal/Newspaper
Language:English
Published: 2013
Subjects:
Organic carbon sequestration
Carbonate sedimentation
Bottom-water oxygen depletion
Coastal upwelling
Southern Tethys
Early to middle Eocene
EL-GARIA FORMATION
RAMP DEPOSITIONAL SYSTEMS
TROPICAL NORTH-ATLANTIC
OCEANIC ANOXIC EVENT
BLACK SHALES
SEA-LEVEL
PETROLEUM GEOLOGY
OFFSHORE TUNISIA
IBERIAN BASIN
MIDDLE-EAST
North Atlantic
Online Access:https://pure.au.dk/portal/da/publications/dynamic-sedimentary-conditions-during-periods-of-enhanced-sequestration-of-organic-carbon-in-the-central-southern-tethys-at-the-onset-of-the-cenozoic-global-cooling(13d73eba-ba18-40c0-bba1-77c181190370).html
https://doi.org/10.1016/j.sedgeo.2013.03.003
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Summary:Stagnant bottom-water conditions (e.g., low and stable redox potential, long-water residence time) is an assumption commonly used to explain the preservation and burial of high amounts of organic carbon (C-org) in marine sediments. Rather than stagnant conditions, the evidence presented here from north-central Tunisia supports dynamic conditions during formation of variably C-org-rich, outermost shelf carbonates of the early-middle Eocene. The dynamic conditions are inferred by the deposition of four distinct lithofacies in this outermost shelf setting. Shedding of carbonate (i.e., mud and fragmented bioclasts) from the shallower source areas controlled the distribution of all lithofacies, with higher amounts of transported benthic debris occurring in the most proximal lithofacies and vice versa. This carbonate shedding also controlled the deposition of three orders of lithological cycles, from limestone/marly limestone couplets grading to cycles made up of groups of couplets. Bottom-water redox potential varied in intensity throughout this depositional setting, with moderate oxygen depletion (suboxic conditions) in the southern sector of north-central Tunisia and much higher oxygenation in the northern area. Evidence for suboxic bottom waters in the southern sector (higher C-org contents) is provided by higher trace metal (Cu, Ni, Zn, Cr, Mo, U and V) enrichments than in the northern area. Regionally heterogeneous primary productivity of surface waters is suggested to have caused a higher C-org burial flux in the southern sector compared to the north, a situation interpreted to have been related to varying upwelling patterns due to the effects of regional palaeogeography and the dominant wind patterns. The deposition of the studied C-org-rich carbonates spanned part of the calcareous nannofossil Zones NP13 to NP14 (similar to 50-48 m.y. ago) and coincided with the initiation of the Cenozoic global cooling subsequent to the early Eocene climatic optimum (EECO) (similar to 52-50 m.y. ago). An implication is that ...

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