Article ID Journal Published Year Pages File Type
9538920 Cretaceous Research 2005 28 Pages PDF
Abstract
Thirty-one ammonite, and eight inoceramid bivalve taxa are recorded from the Cenomanian-Turonian boundary interval at Eastbourne, Sussex, in southern England, and correlated with the δ13C isotope record in carbonate and organic carbon. New ammonite records from Western Europe include the North American species Cunningtoniceras arizonenseKirkland and Cobban, 1986, Tarrantoceras (Sumitomoceras) conliniWright and Kennedy, 1981, Puebloites corrugatus (Stanton, 1894) and Euomphaloceras costatumCobban, Hook and Kennedy, 1989. The ammonites allow definition of three Late Cenomanian (C. guerangeri, M. geslinianum, N. juddii) and three Turonian (W. devonense, F. catinus, M. nodosoides) zones. The inoceramid study enables recognition of the Mytiloides puebloensis Zone, and allows us to demonstrate the absence of the Mytiloides hattini Zone at Eastbourne. The first occurrence of M. puebloensisWalaszczyk and Cobban, 2000, is coincident with that of the ammonite genus Watinoceras, as in the United States Western Interior, and allows precise placement of the Cenomanian-Turonian boundary in the Anglo-Paris Basin for the first time. We present stable carbon isotope data through the succession, including the first δ13Corg record for the UK Chalk. The positive Cenomanian-Turonian boundary carbon isotope excursion at Eastbourne is reflected in the δ13Ccarb record by an overall stepwise increase in values, whereas the δ13Corg record displays distinct minima at times of δ13Ccarb plateaux. Each plateau precedes the following δ13C increase recorded in both the carbonate and the organic carbon curves. The distinct pattern in the organic and carbonate δ13C records results in three intervals that show marked increases in the isotopic fractionation between organic and inorganic carbon. We use a combination of carbon isotope, ammonite and inoceramid data to develop a detailed correlation with the proposed C-T stratotype at Pueblo, Colorado, which has a resolution close to that of Milankovitch precession cycles.
Related Topics
Physical Sciences and Engineering Earth and Planetary Sciences Palaeontology
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