Evidence for oxic conditions during oceanic anoxic event 2 in the northern Tethyan pelagic realm

Westermann, Stéphane; Caron, M.; Fiet, Nicolas; Fleitmann, Dominik; Matera, Virginie; Adatte, Thierry; Föllmi, Karl B.

doi:10.1016/j.cretres.2010.07.001

Cited by 59 publications

(35 citation statements)

References 80 publications

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“…Thus, the depositional area should have been characterized by a persisting highly N-limited biosedimentary system like the Brochterbeck Formation with very high internal recycling rates as observed in today's open oceanic settings (e.g., Duarte and Agustí, 2011). However, the OAE 2 is associated with a sedimentary phosphorus peak (Hetzel et al, 2011;Mort et al, 2007), also in settings without BS development (e.g., the Helvetic Shelf; Westermann et al, 2010). Parts of the P excursion in BS settings can be explained by a decreasing retention potential of P in organic rich deposits (Mort et al, 2007).…”

Section: The Oae 2 In the Wunstorf Setting -A Biogeochemical Productimentioning

confidence: 99%

Imbalanced nutrients as triggers for black shale formation in a shallow shelf setting during the OAE 2 (Wunstorf, Germany)

Blumenberg¹,

Wiese²

2012

Biogeosciences

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Abstract. During the oceanic anoxic event 2 (OAE 2) in the Mid-Cretaceous Period, widespread black shale (BS) formation occurred, reflecting perturbations in major biogeochemical cycles. Here we present geochemical and biomarker data of the OAE 2 from a shelf setting situated at about 100-150 m water depth (Wunstorf, Germany). Our data support that processes inducing BS deposition were related to orbital cyclicity in Wunstorf and that they were not restricted to the time of the OAE 2 carbon isotope excursion. Correlations of total organic carbon (TOC) and δ 15 N and high relative abundances of functionalized hopanoids (including 2-methylated structures) suggest that BS were formed during times of imbalanced nutrients with high phosphorus inputs and increased cyanobacterial nitrogen fixation. Periods of BS formation were also characterized by enhanced growth of dinoflagellates and bacteriovorous ciliates, the latter supporting the presence of a stratified water body. The lack of biomarkers specific for green sulfur bacteria excludes photic zone euxinia during OAE 2 in Wunstorf. Conflicting maturities and biomarker distributions in kerogen and extractable organic matter and, interestingly, a negative correlation of the diagenetically resistant 2-methyl hopane hydrocarbons with TOC indicate a complex depositional setting at Wunstorf. This might have been induced by high continental runoff during BS formation and the accompanying mobilisation of refractory OM from the shelves and near shore areas.

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Section: The Oae 2 In the Wunstorf Setting -A Biogeochemical Productimentioning

confidence: 99%

Imbalanced nutrients as triggers for black shale formation in a shallow shelf setting during the OAE 2 (Wunstorf, Germany)

Blumenberg¹,

Wiese²

2012

Biogeosciences

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“…The Chrummflueschlucht profile and planktonic microzonation (right side, base of the H. helvetica zone is shifted downward based on the new investigation) are from Westermann et al . (). Sections are anchored by the onset of the CTBE (increase into the peak ‘a’).…”

Section: Resultsmentioning

confidence: 97%

“…Westermann et al . () interpreted this interval as condensed. Reduced sedimentation within this part of the Seewen Formation is also reflected in the C‐isotope record, where a rapid increase leads to the first positive excursion of the CTBE.…”

Section: Resultsmentioning

confidence: 99%

“…for location), Westermann et al . () concluded that the Helvetic realm was not affected by anoxia, but, at least, by oxygen‐depleted conditions.…”

Section: Introductionmentioning

confidence: 97%

“…(C) Detailed map of Eastern Switzerland showing the locations of 1: Chäserrugg (47°09′21″N 09°19′03″E); 2: Strichboden (47°10′08″N 09°15′18″E); 3: Zwinglipass (47°14′19″N 09°22′42″E); 4: Ober Kamor (47°17′55″N 9°29′53″E) and 5: Götzis (47°20′36″N 09°40′01″E); 6: Chrummflueschlucht after Westermann et al . ().…”

Section: Introductionmentioning

confidence: 99%

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Ocean current intensification during the Cretaceous oceanic anoxic event 2 – evidence from the northern Tethys

2015

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Mesozoic Oceanic Anoxic Events (OAEs) are expressions of major physical oceanographic changes at times of perturbation of the global carbon cycle. A northern Tethyan record of OAE2 is preserved in expanded Cenomanian-Turonian pelagic limestone sections (Seewen Formation) in Eastern Switzerland. The new carbonate carbon-isotope stratigraphy extracted from these limestones demonstrates that the OAE2 is condensed in all the studied successions and only the onset of the d 13 C excursion (5.0&) is present. The condensed interval is characterized by dissolution features, which are filled by a glauconite quartz sandstone. This bed is overlain by a wellsorted sandstone with intercalated limestone pebbles (G€ otzis Member), which can be compared with palimpsest sands forming today along current-swept shelves. The wide distribution of this thin sandstone layer within OAE2 indicates that an intense, erosive, east-west trending shelf current was active during the highest sea level and most extreme carboncycle perturbation of the OAE2.

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Spatial extent and degree of oxygen depletion in the deep proto‐North Atlantic basin during Oceanic Anoxic Event 2

Helmond

Baroni

Sluijs

et al. 2014

Geochem Geophys Geosyst

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Massive organic matter burial due to widespread ocean anoxia across the Cenomanian/Turonian boundary event (94 Ma) resulted in a major perturbation of the global carbon cycle: the so-called Oceanic Anoxic Event 2 (OAE2). The characteristics and spatial distribution of the OAE2 deposits that formed in the deep basin of the proto-North Atlantic remain poorly described, however. Here we present proxy data of redox sensitive (trace) elements (e.g., Mo, Fe/Al, C org /P tot , and Mn) for OAE2 sediments from five Deep Sea Drilling Project and Ocean Drilling Program sites located in the deep proto-North Atlantic basin. Our results highlight that bottom waters in the entire deep proto-North Atlantic were anoxic during most of OAE2. Furthermore, regressions of Mo with total organic carbon content (TOC), previously shown to document the degree of water mass restriction, confirm that the water circulation in the proto-North Atlantic basin was severely restricted during OAE2. Comparison of these values to Mo/TOC ratios in the present-day Black Sea suggests a renewal frequency of the deep proto-North Atlantic water mass of between 0.5 and 4 ka, compared to a maximum of 200 years for the present-day northern Atlantic. The Plenus Cold Event, a cooler episode during the early stages of OAE2 hypothesized to be caused by declining pCO 2 due to extensive burial of organic matter, appears to have led to temporary re-oxygenation of the bottom water in the deep proto-North Atlantic basin during OAE2.

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Evidence for oxic conditions during oceanic anoxic event 2 in the northern Tethyan pelagic realm

Cited by 59 publications

References 80 publications

Imbalanced nutrients as triggers for black shale formation in a shallow shelf setting during the OAE 2 (Wunstorf, Germany)

Imbalanced nutrients as triggers for black shale formation in a shallow shelf setting during the OAE 2 (Wunstorf, Germany)

Ocean current intensification during the Cretaceous oceanic anoxic event 2 – evidence from the northern Tethys

Spatial extent and degree of oxygen depletion in the deep proto‐North Atlantic basin during Oceanic Anoxic Event 2

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