Journal
PALAEOGEOGRAPHY PALAEOCLIMATOLOGY PALAEOECOLOGY
Volume 441, Issue -, Pages 582-598Publisher
ELSEVIER
DOI: 10.1016/j.palaeo.2015.06.031
Keywords
Oceanic anoxic event 1a; Organya Basin; High resolution organic carbon isotope curve; Organic matter preservation; Terrestrial fluxes; Local expression of eustatic changes
Funding
- Goodfriend Memorial Funds
- FIU Graduate School
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The global occurrence of oxygen-deprived conditions in the ocean characterizes the early Aptian; hence the hallmark of that time interval is the accumulation of organic-rich sediments during an episode of severe oxygen deficiency known as oceanic anoxic event la (OAE1a). As seen elsewhere in the Tethyan domain, an overall change in fades marked by increased input of terrigenous material distinguishes the lower Aptian in the study area, but the nature of the lithologies associated with the organic carbon-rich deposits remain dominated by carbonate sediments and are expressed differently with respect to other areas where the occurrence of black shales characterizes OAE1a. This comparison indicates that significant spatial heterogeneity occurred in sub-Tethyan basins coeval with the global oceanic event. The present work provides a high-resolution, multi-proxy study (petrography, total inorganic carbon (TIC), total organic carbon TOC, carbon isotope [delta C-13(org)], clay mineralogy and biomarkers) of the upper 155 m of the El Pui section, Organya Basin, including the record of OAE1a. The results reveal that oxygenic conditions fluctuated throughout the studied interval, with episodes of oxygen depletion that concurred with TOC values >1%. However, petrographic observations, molecular biomarkers, and redox sensitive trace elements (RSTEs) indicate that full anoxia was not achieved. The results also provide the first high-resolution delta C-13(org) profile for the El Pui section that replicates in greater detail the carbon isotopic signature reported for the Tethyan domain. The upper 155 m of the El Pui section include expanded and well-defined trends of the carbon isotope segments C2 (upper part), C3, C4, C5, and C6 (partial), which correlate with other Tethyan sections and allow for the recognition of the lower Aptian OAE1a in the uppermost 40 m of the section. Such improved high-resolution chemostratigraphic curve could contribute to a more precise chronostratigraphic correlation of Aptian events in a broader scale. (C) 2015 Elsevier B.V. All rights reserved.
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