Add to ORKGThe elemental (Si, Ti, Al, Mn, Ca, Zr) and carbon stable-isotope (δ13C) geochemistry of a biostratigraphically well-constrained Cenomanian–Turonian (Upper Cretaceous) Chalk succession on the Isle of Wight, southern England, shows systematic variation that corresponds closely to a published sequence stratigraphic model for the Cenomanian. Six sequences and their constituent systems tracts, defined elsewhere using sedimentological criteria, are clearly distinguishable from bulk-sediment elemental profiles, and an additional Upper Cenomanian sequence previously identified in Spain is recognized in England from these geochemical data. The manganese curve is particularly instructive, exhibiting minima around sequence boundaries and through lowst...
International audienceThe Mid-Cenomanian Event was a positive carbon-isotope (δ13C) excursion record...
Deposits with unusually high Mn contents sampled at Monte Mangart in the Julian Alps include organic...
Oceanic Anoxic Event 2 (Cenomanian–Turonian: ca 94 Ma) represents a major palaeoceanographic phenome...
Chalk was deposited during a period of high global sea-level some 70 -100 Mya, but subsequent erosio...
ABSTRACT: The boundary interval between the Cenomanian and Turonian stages of the Upper Cretaceous s...
Geochemical concepts relevant to understanding three types of marine sediment-hosted ore deposits ar...
Carbon stable-isotope variation through the Cenomanian-Santonian stages is characterized using data ...
Geochemical and palynological records are presented for an expanded Turonian–Coniacian hemipelagic s...
Carbon stable-isotope variation through the Cenomanian-Santonian stages is characterized using data ...
Oceanic Anoxic Event 2 (OAE2), spanning the Cenomanian-Turonian boundary (CTB), represents one of th...
The Speeton Clay Formation (Lower Cretaceous, Berriasian to Albian) exposed on the northeastern coas...
The regional hardening of the Late Cenomanian to Early Turonian Chalk of the Northern Province of ea...
Graduation date: 2007Marine sediments exceptionally rich in organic carbon, known as black shales, o...
Compositional, textural, and oxygen and carbon stable isotopic analysis of Lower Cretaceous pelagic ...
The cerium anomalies preserved in the Chalk have been investigated as possible palaeoredox indicator...
International audienceThe Mid-Cenomanian Event was a positive carbon-isotope (δ13C) excursion record...
Deposits with unusually high Mn contents sampled at Monte Mangart in the Julian Alps include organic...
Oceanic Anoxic Event 2 (Cenomanian–Turonian: ca 94 Ma) represents a major palaeoceanographic phenome...
Chalk was deposited during a period of high global sea-level some 70 -100 Mya, but subsequent erosio...
ABSTRACT: The boundary interval between the Cenomanian and Turonian stages of the Upper Cretaceous s...
Geochemical concepts relevant to understanding three types of marine sediment-hosted ore deposits ar...
Carbon stable-isotope variation through the Cenomanian-Santonian stages is characterized using data ...
Geochemical and palynological records are presented for an expanded Turonian–Coniacian hemipelagic s...
Carbon stable-isotope variation through the Cenomanian-Santonian stages is characterized using data ...
Oceanic Anoxic Event 2 (OAE2), spanning the Cenomanian-Turonian boundary (CTB), represents one of th...
The Speeton Clay Formation (Lower Cretaceous, Berriasian to Albian) exposed on the northeastern coas...
The regional hardening of the Late Cenomanian to Early Turonian Chalk of the Northern Province of ea...
Graduation date: 2007Marine sediments exceptionally rich in organic carbon, known as black shales, o...
Compositional, textural, and oxygen and carbon stable isotopic analysis of Lower Cretaceous pelagic ...
The cerium anomalies preserved in the Chalk have been investigated as possible palaeoredox indicator...
International audienceThe Mid-Cenomanian Event was a positive carbon-isotope (δ13C) excursion record...
Deposits with unusually high Mn contents sampled at Monte Mangart in the Julian Alps include organic...
Oceanic Anoxic Event 2 (Cenomanian–Turonian: ca 94 Ma) represents a major palaeoceanographic phenome...