Amalia Gorostidi scite author profile

A sparse but moderately diverse nannoflora is recorded through the Cenomanian-Turonian Boundary Event (CTBE) at Menoyo, Spain and allows recognition of the late Cenomanian Eiffellithus turriseiffelii Zone and the early Turonian Quadrum gartneri Zone, as well as five significant nannofossil bioevents associated with the CTBE. Carbon isotopes record a modest excursion which lasted 250–270 thousand years (ka) in three phases, buildup (105 ka), plateau (126 ka) and recovery (42 ka). Acid insoluble residue values imply that sea level rose through the buildup phase, indicated by a reduction in the accumulation rate of siliciclastic sediment. However, oceanic productivity apparently declined through the CTBE, indicated by reduction in accumulation rates of total carbonate and intact coccoliths to less than a quarter of their initial values. These patterns are very similar to those found through the CTBE at Dover, England and reflect widespread not local effects. A combination of lithological changes, seven key bioevents, and details of the δ13C curve, allows us to suggest a bed-by-bed correlation through the CTBE between Dover and Menoyo, demonstrating the practicality of cyclostratigraphy for international correlation at a precision of ± 10 ka. Graphic correlation produces a straight line fit despite wide fluctuations in sediment accumulation rates at both localities. This can only occur if changes were in phase and of similar magnitudes at both localities, again suggesting widespread, perhaps global, control.

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Variaciones de la nanoflora calcárea en el paso Cretácico-Terciario de Monte Urko (N de España)

Gorostidi¹,

Palacios²

2022

Spanish J. Palaeontol.

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En el Monte Urko hay una sección sin interrupciones sedimentarias que comprende el paso Cretácico-Terciario (K/T). El estudio de la nanoflora realizado cuantitativamente sobre un total de 500 ejemplares por muestra, escogidos al azar, pone de manifiesto una asociación típica de la Zona de Mictila murus, con Watznaueria barnesae (Black), Micula decussata Vekshina, Prediscosphaera cretacea (Arkhangelski), Arkhangelskiella cymbifornis Vekshina y Cribrosphaerella ehrenbergii (Arkhangelski) como especies más abundantes. En el Terciario basal la asociación de nanoflora contiene las mismas especies encontradas en el Maastrichtiense superior, pero su proporción se reduce del 94% al 78% del total de la asociación, mientras que las especies persistentes (Cyclagelosphaera reinhardtii (Perch-Nielsen), Markalius inversus (Deflandre), Thoracosphaera spp. y Braarudosphaera spp.) pasan del 6% al 22% aumentando progresivamente en términos más altos hasta el 79%. Especímenes atribuibles dudosamente a la especie terciaria Biantholithus sparsus Bramlette y Martini se han detectado a unos 25 cm sobre el límite K/T. Las especies persistentes, interpretadas como oportunistas, muestran un aumento en los últimos centímetros bajo el límite K/T; así se pasa de su práctica ausencia a unos 30-40 cm, al 3-6 % en los últimos 15 cm. Este aumento, que puede interpretarse como una inestabilidad del ecosistema, no queda reflejado en la δ13C hasta que se traspasa el límite K/T, con una variación máxima del 2 ‰ en los 10 cm basales del Daniense, coincidiendo con los cambios más importantes de la nanoflora, los porcentajes más altos de Thoracosphaera spp., y los cambios en las asociaciones de foraminíferos planctónicos.

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Amalia Gorostidi

The Cenomanian–Turonian boundary at Eastbourne (Sussex, UK): a proposed European reference section

Quantitative estimates of calcareous nannofossil changes across the Plenus Marls (latest Cenomanian), Dover, England: implications for the generation of the Cenomanian-Turonian Boundary Event

Fossil occurrences in the Upper Cenomanian-Lower Turonian at Ganuza, northern Spain: an approach to Cenomanian/Turonian boundary chronostratigraphy

The Cenomanian-Turonian Boundary Event in northern Spain

Variaciones de la nanoflora calcárea en el paso Cretácico-Terciario de Monte Urko (N de España)

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