Sea-level control on facies architecture in the Cenomanian–Coniacian Apulian margin (Western Tethys): A record of glacio-eustatic fluctuations during the Cretaceous greenhouse?
Articolo
Data di Pubblicazione:
2009
Abstract:
The integrated chemo-, bio- and sequence stratigraphy from the Cenomanian–Coniacian base-of-slope
succession of Monte Turno (Abruzzo, central Italy) provides a fine scale calibration of the local sea-level
curve inferred from the adjacent platform to records of global sea-level change. Our results indicate that
regional marine regressions were coincident with episodes of global cooling and sea-level fall, providing
evidences for a causal link between climate changes and sea-level changes. The presence of small polar icecaps
during the assumed ice-free Cretaceous is a likely explanation for the observed pattern.
succession of Monte Turno (Abruzzo, central Italy) provides a fine scale calibration of the local sea-level
curve inferred from the adjacent platform to records of global sea-level change. Our results indicate that
regional marine regressions were coincident with episodes of global cooling and sea-level fall, providing
evidences for a causal link between climate changes and sea-level changes. The presence of small polar icecaps
during the assumed ice-free Cretaceous is a likely explanation for the observed pattern.
Tipologia CRIS:
1.1 Articolo in rivista
Elenco autori:
Galeotti, S.; Rusciadelli, Giovanni; Sprovieri, M.; Lanci, L.; Gaudio, A.; Pekar, S.
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