Cyanobacteria Proliferation in the Cenomanian‐Turonian Boundary Interval of the Apennine Carbonate Platform: Immediate Response to the Environmental Perturbations Associated With OAE‐2?

Oceanic Anoxic Event‐2 (OAE‐2; Cenomanian‐Turonian) is characterized by extensive deposition of organic carbon‐rich deposits (black shales) in ocean basins worldwide as result of a major perturbation of the global carbon cycle. While the sedimentological, geochemical, and paleontological aspects of...

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Published in:Geochemistry, geophysics, geosystems : G3 geophysics, geosystems : G3, 2019-06, Vol.20 (6), p.2698-2716
Main Authors: Frijia, G., Forkner, R., Minisini, D., Pacton, M., Struck, U., Mutti, M.
Format: Article
Language:English
Subjects:
Anoxia
Apennine Carbonate Platform (ACP)
C isotopes
Carbon cycle
Carbonates
Cyanobacteria
Deep water
Electron microscopy
Environmental conditions
Eutrophication
Geochemistry
Microbial activity
N isotopes
OAE‐2
Ocean basins
Organic carbon
Organic matter
Platforms (geology)
Proliferation
Pyrolysis
Sedimentary facies
Sedimentation
Shallow water
Total organic carbon
Tropical climate
Volcanism
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Summary:Oceanic Anoxic Event‐2 (OAE‐2; Cenomanian‐Turonian) is characterized by extensive deposition of organic carbon‐rich deposits (black shales) in ocean basins worldwide as result of a major perturbation of the global carbon cycle. While the sedimentological, geochemical, and paleontological aspects of deep water expressions of OAE‐2 have been intensively studied in the last few decades, much less attention has been given to the coeval shallow water deposits. In this study, we present the results of a detailed facies and petrographic (optical microscope and scanning electron microscopy) and geochemical studies (δ13Ccarb, δ 13C org, δ 15Nbulk, TOC, and Rock‐Eval pyrolysis) on two key shallow marine sections from the Apennine Carbonate Platform (ACP; Italy). Here a continuous record of shallow water carbonates through the OAE‐2 interval is preserved, offering the unique opportunity to document the archive of paleoenvironmental changes in a neritic setting, at a tropical latitude and far from the influence of a large continental block. Two conspicuous intervals are characterized by abundant and closely spaced “dark” microbial laminites found at correlative stratigraphic horizons in the two stratigraphic sections. These laminites contain elevated concentrations of TOC (up to 1%) relative to microbial capping cycles laminites stratigraphically above and below. The organic matter preserved in these fine‐grained laminites is dominated by cyanobacteria remains, which accounted for most of the organic matter produced on the ACP in these intervals. Our study suggests that Tethyan carbonate platforms experienced significant biological changes during OAE‐2, alternating, in few kiloyears, between eutrophic phases dominated by microbial communities and mesotrophic/oligotrophic conditions favoring “normal” carbonate production/sedimentation. The synchronous occurrence of microbialite facies at different locations across the ACP and on other platforms worldwide (e.g., Mexico and Croatia) suggests a causal link between Large Igneous Province volcanism and the environmental conditions necessary to trigger cyanobacterial proliferation on shallow carbonate platforms. Key Points A detailed geochemical and petrographic study of the evolution of the Apennine Carbonate Platform (S‐Italy) during the OAE‐2 is presented Two laminated intervals, dominated by cyanobacteria remains, were deposited during OAE‐2 Cyanobacteria proliferation during the OAE‐2 is coeval with CO2 and nutrient inc
ISSN:1525-2027
1525-2027
DOI:10.1029/2019GC008306