The oldest marine Cretaceous sediments in West Greenland (Umiivik-1 borehole) – record of the Cenomanian–Turonian Anoxic Event?

Dam, Gregers; Nøhr‐Hansen, Henrik; Christiansen, Flemming G.; Bojesen‐Koefoed, Jørgen A.; Laier, Troels

doi:10.34194/ggub.v180.5096

Cited by 31 publications

(13 citation statements)

References 17 publications

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“…The FDO (first downhole occurrence) of the new species occurs below the FDO of Trichodinium castanea and Callaiosphaeridium asymmetricum in an assemblage dominated by Heterosphaeridium bellii-heteracanthum. The presence of C. asymmetricum and T. castanea suggests an age no younger than early Campanian (Costa and Davey, 1992;Fensome et al, 2009;Gradstein et al, 2010). The record of common to abundant H. bellii was also reported by Radmacher et al (2014aRadmacher et al ( , b, 2015 in middle-early Campanian aged sediments from Norwegian Sea and Barents Sea wells.…”

Section: Biostratigraphy and Palaeogeographic Distributionsupporting

confidence: 69%

“…Other than D. hadra n. sp., only D. plekta occurs in the Late Cretaceous, extending from west Greenland (Nøhr-Hansen, 1994a, b, c, 1996Dam et al, 1998Dam et al, , 2000, southeast Greenland (Nøhr-Hansen, 2012) and offshore Norway (Setoyama et al, 2013;Radmacher et al, 2015). Paleocene records are limited to the Norwegian Sea (Vieira et al, 2018a, b), central North Sea , northern Greenland (Lyck and Stemmerik, 2000) and southeast England (Jolley, 1992(Jolley, , 1998 (Fig.…”

Section: Biostratigraphy and Palaeogeographic Distributionmentioning

confidence: 97%

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<i>Desmocysta hadra</i>, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology

Vieira

Mahdi²

2020

J. Micropalaeontol.

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Abstract. A new species of dinoflagellate cyst, Desmocysta hadra sp. nov., is described from the early Campanian (Late Cretaceous) in the Norwegian Sea. This new taxon differs from the other three known species by its particularly robust but highly folded wall and the short, fine filaments arising from the antapex. The short stratigraphic range of early Campanian for this new species was calibrated with other regional well-dated dinoflagellate cysts, making it a good biostratigraphic marker. A review of the taxonomic description of the genus has also been undertaken using the available published data. The available data shows a consistent presence of Desmocysta in the fossil record from the Early Cretaceous to the late Paleocene, although some Late Jurassic occurrences have been reported in the North Sea Basin. The current records also indicate that this genus is restricted to higher latitudes in the Northern Hemisphere. Based on Paleocene and Late Cretaceous occurrences of the genus, and its association with dinoflagellate cysts, prasinophytes and acritarchs, a proximal, highly stressed marine environment for Desmocysta is suggested.

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Section: Biostratigraphy and Palaeogeographic Distributionsupporting

confidence: 69%

Section: Biostratigraphy and Palaeogeographic Distributionmentioning

confidence: 97%

<i>Desmocysta hadra</i>, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology

Vieira

Mahdi²

2020

J. Micropalaeontol.

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“…A variable density seismic grid is present in the Davis Strait and Labrador Sea regions. The data is supported by limited publicly available well data (see Figure 4 for well locations), from both offshore and onshore sources (e.g., Rolle, 1985;Balkwill, 1987;Dam et al, 1998b;Chalmers et al, 1999;Christiansen et al, 2001;Sønderholm et al, 2003;Sørensen, 2003;Gregersen and Bidstrup, 2008;Nelson et al, 2015).…”

Section: Datamentioning

confidence: 73%

Breakup volcanism and plate tectonics in the NW Atlantic

et al. 2019

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Passive margins are the locus of tectonic and magmatic processes leading to the formation of highly variable along-strike and conjugate margins structures. Using extensive new seismic, gravity, and magnetic datasets, complemented by seabed samples and field work, we investigate the tectonomagmatic evolution of the northwest (NW) Atlantic where breakup-related igneous rocks were emplaced during several Paleogene events associated with lithospheric stretching, continental breakup, and the formation of new oceanic basins. Interpretational methods include integrated seismic-gravity-magnetic (SGM) interpretation and seismic volcanostratigraphy. In addition, seabed and field samples were collected and analyzed to constrain the basin stratigraphy, hydrocarbon potential, and the geochronology and geochemistry of the volcanic sequences. Offshore, 2D seismic data reveal several Seaward Dipping Reflector (SDR) wedges and escarpments in the Labrador Sea, Davis Strait, and Baffin Bay. Onshore, eastward prograding foreset-bedded hyaloclastite delta deposits and overlying horizontal lava successions outcrop on Nuussuaq. These hyaloclastites and lava successions are world class analogues to the Lava Delta and Landward Flows volcanic seismic facies units identified offshore. Our mapping results document an aerial extent of the Paleogene breakup-related volcanics of 0.3×10 6 km 2 , with an estimated volume of 0.5-0.6×10 6 km 3. Basalt samples recovered by dredging the Upernavik Escarpment have late Paleocene to/early Eocene ages, whereas the sedimentary samples provide an excellent seismic tie with the stratigraphy and the geology in this frontier area. From the integrated SGM interpretation, we identify a rapidly thinning crust and changes in top and intra-basement seismic reflection characteristics in the oceanic domain correlated with transition between different magnetic domains. The mapping results were subsequently integrated in a plate tectonic model. The plate tectonic reconstruction and basalt geochronology suggest that the majority of the volcanism in the NW Atlantic

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“…Similarly to the maturity of the sediment, the maximum burial palaeotemperatures increase westward. However, local increases in maturity reflect the thermal effects of magma intrusions, as for example in the Umiivik‐1 well situated in the SE of the Svartenhuk‐Halvø peninsula (Dam, Nohr‐Hansen, Christiansen, Bosjesen‐Kofoed, & Laier, 1998) (see Figures 1 and 2).…”

Section: Discussionmentioning

confidence: 99%

The thermal maturity of sedimentary basins as revealed by magnetic mineralogy

Abdelmalak

Polteau

2020

Basin Research

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The thermal evolution of sedimentary basins is usually constrained by maturity data, which is interpreted from Rock-Eval pyrolysis and vitrinite reflectance analytical results on field or boreholes samples. However, some thermal evolution models may be inaccurate due to the use of elevated maturities measured in samples collected within an undetected metamorphic contact aureole surrounding a magmatic intrusion.

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The oldest marine Cretaceous sediments in West Greenland (Umiivik-1 borehole) – record of the Cenomanian–Turonian Anoxic Event?

Cited by 31 publications

References 17 publications

<i>Desmocysta hadra</i>, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology

<i>Desmocysta hadra</i>, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology

Breakup volcanism and plate tectonics in the NW Atlantic

The thermal maturity of sedimentary basins as revealed by magnetic mineralogy

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The oldest marine Cretaceous sediments in West Greenland (Umiivik-1 borehole) – record of the Cenomanian–Turonian Anoxic Event?

Cited by 31 publications

References 17 publications

&lt;i&gt;Desmocysta hadra&lt;/i&gt;, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology

&lt;i&gt;Desmocysta hadra&lt;/i&gt;, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology

Breakup volcanism and plate tectonics in the NW Atlantic

The thermal maturity of sedimentary basins as revealed by magnetic mineralogy

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Product

Resources

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<i>Desmocysta hadra</i>, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology

<i>Desmocysta hadra</i>, a new Late Cretaceous dinoflagellate cyst species: stratigraphic range, palaeogeographic distribution and palaeoecology