Environmental magnetic characterization for the Pialli Level and the Cretaceous Oceanic Red Bed 7 (late Albian, Poggio le Guaine core, central Italy).
Primeiro Autor | Teixeira, K. M., Savian, J. F., Mello, R. G., Leandro, C. G., Kochhann, M. V., Giorgioni, M., Vidal, P. H. P. C., Martini, A. P., Jovane, L., Frontalini, F., Coccioni, R., Figueiredo, M., Tedeschi, L. R., Matsumoto, H., Kuroda, J. & Trindade, R. I. |
Autores | Teixeira, K. M., Savian, J. F., Mello, R. G., Leandro, C. G., Kochhann, M. V., Giorgioni, M., Vidal, P. H. P. C., Martini, A. P., Jovane, L., Frontalini, F., Coccioni, R., Figueiredo, M., Tedeschi, L. R., Matsumoto, H., Kuroda, J. & Trindade, R. I. |
Resumo | The mid-Cretaceous is known as the most extreme greenhouse period in the last 150 Myr and was punctuated by repeated environmental perturbations. The mid-Cretaceous was also characterized by the emplacement of major Large Igneous Provinces and the deposition of organic-rich layers known as Oceanic Anoxic Events. Here, we present a high-resolution environmental magnetic and stable isotopic records of the western Tethyan pelagic interval in the Poggio le Guaine (PLG, Italy) core, deposited during the late Albian. Environmental magnetic data are here applied to detect redox and paleoproductivity variations across the OAE 1d and CORB 7 events. Combing the magnetic data and geochemical data from carbon (δ13C) and oxygen (δ18O) isotopic records, we document changes in the paleoenvironmental conditions across the Pialli Level and CORB 7 events in the Tethyan realm. The magnetic properties of the 10-m-thick pelagic marine sediments of the PLG core record the onset between upper part of Cretaceous Oceanic Red Bed 7 (CORB 7) and the Pialli Level that is a part of the Oceanic Anoxic Event (OAE) 1d. An increase in the magnetic mineral concentrations with hematite and goethite as the main magnetic carrier characterizes the upper CORB 7 sediments. Variations in “hard” isothermal remanent magnetization and the S-ratio during the upper CORB 7 are interpreted as changes in aeolian dust input into the Umbria-Marche Basin. During the interval between the upper part of CORB 7 and OAE 1d (Pialli Level), the magnetic mineral concentration decreases, and the magnetic mineralogy changes from hematite to magnetite, suggesting a change in the oceanic system. This change might be associated to an increase in orbital forcing capable of modulating the monsoon activity at the onset of the Pialli Level. First-order reversal curves for all samples from the PLG core are similar and indicate a dominance of detrital magnetite. The absence of magnetically non-interacting single domain biogenic particles suggests that an increase in primary productivity was not significant or variation of the anoxic-oxic boundary could have also occurred. Finally, our records show cyclic alterations that reflect changes in the terrigenous input that was triggered by a period of enhanced orbital forcing paced by monsoonal systems. |
Programa | Geofísica |
Ano de publicação | 2023 |
Tipo de publicação | Artigo publicado em revista |
Nome da revista/jornal | Global and Planetary Change |
Localidade | Publicação Internacional |
Volume | 230 |
Número | 104281 |
DOI | https://doi.org/10.1016/j.gloplacha.2023.104281 |
Palavras chave | Oceanic Anoxic Event ; Orbital forcing ; Monsoon ; Minerals |
Página web | https://www.sciencedirect.com/science/article/pii/S0921818123002540?via%3Dihub |