Jiménez Berrocosco, Álvaro; MacLeod, Kenneth G; Calvert, Stephen E; Elorza, Javier (2008): Geochemistry and stable isotope record of black shales and inoceramids from the Demerara Rise [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.832152, Supplement to: Jiménez Berrocosco, Á et al. (2008): Bottom water anoxia, inoceramid colonization, and benthopelagic coupling during black shale deposition on Demerara Rise (Late Cretaceous western tropical North Atlantic). Paleoceanography, 23(3), PA3212, https://doi.org/10.1029/2007PA001545
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Abstract:
The bulk rock geochemistry and inoceramid isotopic composition from Cenomanian to Santonian, finely laminated, organic-rich black shales, recovered during Ocean Drilling Program Leg 207 on Demerara Rise (western tropical North Atlantic), suggest persistent anoxic (free H2S) conditions within the sediments and short-term variations within a narrow range of anoxic to episodically dysoxic bottom waters over a ~15 Ma time interval. In addition to being organic-rich, the 50-90 m thick sections examined exhibit substantial bulk rock enrichments of Si, P, Ba, Cu, Mo, Ni, and Zn relative to World Average Shale. These observations point to high organic burial fluxes, likely driven by high primary production rates, which led to the establishment of intensely sulfidic pore waters and possibly bottom waters, as well as to the enrichments of Cr, Mo, U, and V in the sediments. At the same time, the irregular presence of benthic inoceramids and foraminifera in this facies demonstrates that the benthic environment could not have been continuously anoxic. The d13C and d15N values of the inoceramid shell organics provide no evidence of chemosymbiosis and are consistent with pelagic rain as being a significant food source. Demerara Rise inoceramids also exhibit well-defined, regularly spaced growth lines that are tracked by d13C and d18O variations in shell carbonate that cannot be simply explained by diagenesis. Instead, productivity variations in surface waters may have paced the growth of the shells during brief oxygenation events suitable for benthic inoceramid settlement. These inferences imply tight benthopelagic coupling and more dynamic benthic conditions than generally portrayed during black shale deposition. By invoking different temporal scales for geochemical and paleontological data, this study resolves recent contradictory conclusions (e.g., sulfidic sedimentary conditions versus dysoxic to suboxic benthic waters) drawn from studies of either sediment geochemistry or fossil distributions alone on Demerara Rise. This variability may be relevant for discussions of black shales in general.
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Median Latitude: 9.142053 * Median Longitude: -54.416357 * South-bound Latitude: 9.048610 * West-bound Longitude: -54.733310 * North-bound Latitude: 9.433330 * East-bound Longitude: -54.317300
Date/Time Start: 2003-01-22T18:15:00 * Date/Time End: 2003-02-19T11:40:00
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
10 datasets
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Datasets listed in this publication series
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S3) Element/Al ratios and element enrichment factors of the black shales of ODP Hole 207-1258A. https://doi.org/10.1594/PANGAEA.832141
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S1) Element/Al ratios and element enrichment factors of the black shales of ODP Site 207-1260. https://doi.org/10.1594/PANGAEA.832142
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table 4) Carbon and nitrogen isotopic ratios of bulk samples from ODP Site 207-1260 and Hole 207-1261A. https://doi.org/10.1594/PANGAEA.832151
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S5) Stable carbon and nitrogen isotope ratios of the denser fraction of ODP Holes 207-1260B and 207-1261A. https://doi.org/10.1594/PANGAEA.832144
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table 3) Carbon and nitrogen isotopic ratios of inoceramid shell organics of ODP Holes 207-1260B and 207-1261A. https://doi.org/10.1594/PANGAEA.832150
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S2) Element/Al ratios and element enrichment factors of the black shales of ODP Hole 207-1261A. https://doi.org/10.1594/PANGAEA.832143
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S9) Carbonate isotopic ratios of calcite cements of ODP Hole 207-1261A. https://doi.org/10.1594/PANGAEA.832149
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S8) Carbonate isotopic ratios across the growth lines of the inoceramid D3, ODP Hole 207-1261A. https://doi.org/10.1594/PANGAEA.832148
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S7) Carbonate isotopic ratios across the growth lines of the inoceramid D5, ODP Hole 207-1261A. https://doi.org/10.1594/PANGAEA.832147
- Jiménez Berrocosco, Á; MacLeod, KG; Calvert, SE et al. (2008): (Table S6) Carbonate isotopic ratios across the growth lines of the inoceramid T5, ODP Hole 207-1261A. https://doi.org/10.1594/PANGAEA.832146