Porifera-microbialites of the Lower Liassic (Northern Calcareous Alps) - Re-settlement strategies on submarine mounds of dead Rhaetian reefs by ancestral benthic communities

Delecat, Stefan

doi:10.53846/goediss-2385

DOI: 10.53846/goediss-2385

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Porifera-microbialites of the Lower Liassic (Northern Calcareous Alps) - Re-settlement strategies on submarine mounds of dead Rhaetian reefs by ancestral benthic communities

Stefan Delecat¹

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Análisis geoquímico (elementos mayores, menores, traza, δ13C, δ18O y tierras raras) de microbialitas selectas provenientes de la Formación San Casiano (Triásico Medio - Superior, NE de Italia)

Sánchez‐Beristain¹,

Kranksith²

2011

BSGM

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Análisis geoquímico de microbialitas de la Formación San Casiano 399 ResumenSe presentan los resultados del análisis geoquímico de 28 elementos (mayores, menores, traza y tierras raras), así como de isótopos de carbono y oxígeno aplicado a 17 muestras microbialíticas provenientes de la Formación San Casiano (NE de Italia). Dicho análisis ha permitido caracterizar la composición de las microbialitas como calcitas magnesianas (> 4.00 % mol Mg), determinar su buen estado de preservación y detectar la presencia de sedimentación siliciclástica fina durante su crecimiento. Asimismo, ha permitido inferir las condiciones rédox del paleoambiente y comparar sus señales geoquímicas con los componentes esqueléticos, alomicritas y cementos en busca de relictos metabólicos y/o de actividad biológica a partir de ciertos elementos traza.Para efectuar este análisis se utilizaron dos métodos: la Espectrometría de Plasma-Masa Inductivamente Acoplada por Ablación Láser (LA-ICP-MS), y espectrometría de masas para la medición de isótopos estables de carbono y oxígeno. Las muestras presentan un contenido medianamente alto de silicio y aluminio. Dichos elementos reflejan la sedimentación de arcillas durante el crecimiento de las microbialitas. No existe una correlación entre los valores de Mn/Sr y δ 18 O o entre δ 13 C y δ 18 O, indicando así una ausencia de efectos de diagénesis meteórica. Las concentraciones de hierro y manganeso exhiben correlaciones medias con el azufre, lo que permite ligar el origen de estos elementos con fenómenos diagenéticos tempranos, mismos que se pueden constatar por medio del alto contenido de estroncio y de los valores de δ 18 O. Las microbialitas están enriquecidas con una amplia gama de elementos menores y traza. Se corrobora la ausencia de implicación biológica conocida para algunos elementos (Rb, Ti, Zr, Nb y Th), que se encuentran asociados con algunos elementos mayores, reiterando su origen terrigénico (r 2 con Si >0.5). Otros (Zn, Sb, Cr, V, Sn, Ni, Co) no presentan asociación alguna con silicio o aluminio, pero tampoco pueden ser considerados como relictos metabolismo microbiano debido a su enriquecimiento en fases abióticas. En cambio, algunos de estos elementos (Cr, V, Ni, Co) son útiles para determinar las condiciones rédox del paleoambiente de la Formación San Casiano como ligeramente disóxico. Solamente el cobre y el molibdeno están relacionados a un origen microbiano. El molibdeno sirve adicionalmente para reiterar las condiciones rédox inferidas. Los resultados del análisis de Tierras Raras no son conclusivos, toda vez que las concentraciones de fósforo, silicio y aluminio alteran significativamente la precipitación de las mismas. Debido a la excelente preservación del material estudiado, es posible interpretar las señales geoquímicas obtenidas como primarias.

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Análisis geoquímico (elementos mayores, menores, traza, δ13C, δ18O y tierras raras) de microbialitas selectas provenientes de la Formación San Casiano (Triásico Medio - Superior, NE de Italia)

Sánchez‐Beristain¹,

Kranksith²

2011

BSGM

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Fossil Psammobiontic Sponges and Their Foraminiferal Residents, Central Apennines, Italy

Reuter

Piller

Brandano

2014

PALAIOS

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Sponges generally live firmly attached on firm-and hardgrounds but a few species are known to colonize mobile sediments in shallow water. These psammobiontic sponges are anchored to the bottom by incorporating sediment particles at their base. Herein we relate so-far enigmatic bowlshaped structures from seagrass deposits of the lower Miocene (Burdigalian) Calcari a Briozoi e Litotamni Formation on the Latium-Abbruzzi carbonate platform (Central Apennines, Italy) to the in-ground parts of psammobiontic sponges. The sponge fossils yield a peculiar foraminiferal assemblage with an increased abundance of Bulimina and Bolivina compared to the surrounding sediments as well as with planktic foraminifers and spirillinids (Spirillina, Patellina), which are not recorded outside the sponges. Drifting planktic foraminifers became trapped on the sponge surface exposed to the water column before agglutination. In contrast, high quantities of Bulimina, Bolivina, and spirillinids indicate commensalistic relationships with the sponges. Generally, ecological interactions between foraminifers and living sponges are poorly documented. In the present case the infaunal Bulimina and Bolivina have been attracted by a low-oxygen and nutrient-rich environment, which developed in the progressively decaying buried part of the sponges along with early lithification, while the epifaunal spirillinids populated the internal network of water channels, which provided protection and food supply. The high abundance of generally rare Spirillina in Late Jurassic sponge reefs indicates a persistent ecological preference of spirillinids to sponge microhabitats. © 2013, SEPM (Society for Sedimentary Geology)

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Bio- and chemostratigraphic assessment of carbon isotope records across the Triassic–Jurassic boundary at Csővár quarry (Hungary) and Kendlbachgraben (Austria) and implications for global correlations

Korte

Kozur²

2011

bgsd

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Carbon isotope trends are useful for stratigraphic correlation, especially for time intervals when major perturbations of the global carbon cycle occurred. Such perturbations have been documented for the Triassic–Jurassic (T–J) boundary, and several successions from this time interval are characterized by (1) an initial negative excursion, followed by (2) a pronounced positive excursion and a subsequent (3) main negative carbon isotope excursion. These features, however, are not present in all T–J boundary sections, or the stratigraphic position of the positive or the main negative excursion has variable locations. In the present study, we analysed carbon isotopes in bulk carbonate from the pelagic Csővár quarry section in Hungary and from the intra-platform basin to shallow subtidal marine Kendlbachgraben section in Austria. Both T–J boundary successions are biostratigraphically well controlled enabling – with particular focus on the bio- and chemostratigraphy of other T–J boundary sections – correlation of the carbon isotope trends. This evaluation shows that the apex of the initial negative δ13C excursion occurred slightly, but distinctly, below the mass extinction event and represents an excellent stratigraphic correlation tool.

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Porifera-microbialites of the Lower Liassic (Northern Calcareous Alps) - Re-settlement strategies on submarine mounds of dead Rhaetian reefs by ancestral benthic communities

Cited by 3 publications

References 0 publications

Análisis geoquímico (elementos mayores, menores, traza, δ13C, δ18O y tierras raras) de microbialitas selectas provenientes de la Formación San Casiano (Triásico Medio - Superior, NE de Italia)

Análisis geoquímico (elementos mayores, menores, traza, δ13C, δ18O y tierras raras) de microbialitas selectas provenientes de la Formación San Casiano (Triásico Medio - Superior, NE de Italia)

Fossil Psammobiontic Sponges and Their Foraminiferal Residents, Central Apennines, Italy

Bio- and chemostratigraphic assessment of carbon isotope records across the Triassic–Jurassic boundary at Csővár quarry (Hungary) and Kendlbachgraben (Austria) and implications for global correlations

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