A tropically hot Mid-Cretaceous North American Western Interior Seaway

The mid-Cretaceous thermal maximum (KTM) during Cenomanian to Santonian times from ca. 100 to 83 Ma is considered among Earth's warmest sustained intervals of the Phanerozoic. The time interval is also characterized by major paleoceanographic changes in the form of an oceanic anoxic event and t...

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Bibliographic Details
Published in:Geology (Boulder) 2022-08, Vol.50 (8), p.954-958
Main Authors: Jones, Matthew M, Petersen, Sierra V, Curley, Allison N
Format: Article
Language:English
Subjects:
Anoxia
Arizona
Bivalvia
C-13/C-12
Calcite
carbon
Carbonates
Cenomanian
chemical composition
Climate
Colorado
Colorado Plateau
Cretaceous
Dakota Formation
Diagenesis
electron microscopy data
Exogyra trigeri
Flooding
Fossils
Frontier Formation
Geochemistry
Geology
Greenhouse climates
isotope ratios
Isotopes
Mancos Shale
marine environment
Marine molluscs
Mesozoic
Mollusca
New Mexico
North America
O-18/O-16
Ostrea
Ostrea leveretti
Ostreidae
Ostreoidea
oxygen
Oysters
paleo-oceanography
paleoclimatology
paleoenvironment
paleosalinity
paleotemperature
Paleotemperatures
Phanerozoic
Pycnodonte
Records
SEM data
Shellfish
shells
Shipping
stable isotopes
Standard error
Stratigraphy
Temperature trends
United States
Upper Cretaceous
Utah
Western Interior
Western Interior Seaway
Wyoming
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Summary:The mid-Cretaceous thermal maximum (KTM) during Cenomanian to Santonian times from ca. 100 to 83 Ma is considered among Earth's warmest sustained intervals of the Phanerozoic. The time interval is also characterized by major paleoceanographic changes in the form of an oceanic anoxic event and the flooding of epicontinental seaways, such as the Western Interior Seaway in North America. We report carbonate clumped isotope (Δ47) paleotemperatures (TΔ47) of the KTM measured from Cenomanian oyster fossils of the Western Interior Seaway. Following screening of specimens for carbonate diagenesis and exclusion of geographic zones with evidence consistent with solid-state Δ47 reordering, a mean TΔ47 of 28-34°C (95% confidence interval for the standard error of mean) for primary oyster calcite quantifies extreme mid-latitude warmth in North America. When combined with existing Campanian and Maastrichtian marine TΔ47 records, the new data constrain Late Cretaceous temperature trends underlying the evolution of North American faunal and stratigraphic records. These TΔ47 data from the peak KTM highlight the potential of this proxy to quantitatively resolve the upper thermal limits of Phanerozoic greenhouse climates.
ISSN:0091-7613
1943-2682
DOI:10.1130/G49998.1