Calcareous plankton high-resolution bio-magnetostratigraphy for the Langhian of the Mediterranean area

Author(s): Di Stefano, Agata; Foresi, Luca Maria; Lirer, Fabrizio; Iaccarino, Silvia Maria; Turco, Elena; Amore, Filomena Ornella; Mazzei, Roberto; Morabito, Simona; Salvatorini, Gianfranco; Abdul Aziz, Hayfaa
Author Affiliation(s): Primary:
Universita di Catania, Dipartimento di Scienze Geologiche, Catania, Italy
Other:
Universita di Siena, Italy
Istituto Ambiente Marino Costiero, Italy
Universita di Parma, Italy
Universita del Sannio, Italy
Deltarea/TNO Built Environment and Geosciences, Netherlands
Volume Title: Rivista Italiana di Paleontologia e Stratigrafia
Source: Rivista Italiana di Paleontologia e Stratigrafia, 114(1), p.51-76. Publisher: Universita degli Studi di Milano, Istituto di Geologia, Dipartimento di Scienze della Terra, Milan, Italy. ISSN: 0035-6883 CODEN: RPLSAT
Note: In English with Italian summary. 82 refs.; illus., incl. charts, 2 tables, sketch map
Summary: High-resolution quantitative and qualitative analyses of the planktonic foraminifer and calcareous nannofossil content have been carried out on three Middle Miocene sections, from the Mediterranean area. Such sections (Cretaccio section, Tremiti Islands, Southern Italy; Moria section, arche Region, Central Italy; DSDP Site 372 succession, Balearic Basin), all well known in the literature, have been chosen because of their high-quality biostratigraphic potential. Remarkable magnetostratigraphic data were provided by the Site 372 succession where all chrons and subchrons of the interval C5Br-C5AAn have been recognised. The investigated interval falls between the First Occurrence (FQ) of Praeorblina glomerosa sicana and the Last Occurrences (LO) of Sphenolithus heteromorphus and Globorotalia peripheroronda. The LO of S. heteromorphus was detected in the uppermost part of the investigated sequence of Site 372 at the same stratigraphic level as the G peripheroronda LO. A drastic decrease in abundance of S. beteromorphus (Last Common Occurrence-LCO) was detected slightly below its last occurrence; this event is well correlatable with the same event astronomically calibrated at Ras-il Pellegrin section (Malta Island), which has been recently ratified as the Global Stratotype Section and Poinc (GSSP) for the base of the Serravallian by the International Union of Geological Sciences. The stratigraphic correlation of the studied sections is based on first and last occurrences, abundance fluctuations of selected taxa and additional biohorizons. In particular the peculiar distribution pattern of some taxa, e.g. Paragloborotalia siakensis and Helicosphaera waitrans, offered the opportunity to increase the biostratigraphic resolution of the Langhian interval. The resulting integrated calcareous plankton bio-magnetostratigraphic scheme represents the downward extension of that one previously established for the Serravallian-Tortonian interval. The biostratigraphic correlation of the studied sections with the Langhian historical Stratorype pointed out its low degree of reliability. On the other hand, none of the sections here studied is suitable to be proposed as candidate for defining the Langhian GSSP. Thus the problem of finding, in the Mediterranean area, a valid section which could yield a new GSSP for the Langhian Stage is still open.
Year of Publication: 2008
Research Program: DSDP Deep Sea Drilling Project
Key Words: 12 Stratigraphy, Historical Geology and Paleoecology; Algae; Assemblages; Balearic Basin; Biostratigraphy; Calcareous composition; Cenozoic; Chronostratigraphy; Correlation; Cretaccio Italy; DSDP Site 372; Deep Sea Drilling Project; Europe; Extinction; First occurrence; Foraminifera; Globigerinacea; Globorotalia; Globorotaliidae; High-resolution methods; Invertebrata; Italy; Langhian; Leg 42A; Magnetostratigraphy; Marches Italy; Mediterranean Sea; Microfossils; Miocene; Monte Petrano; Moria Italy; Nannofossils; Neogene; Plankton; Plantae; Praeorbulina; Protista; Rotaliina; Southern Europe; Sphenolithus; Tertiary; Tremiti Islands; West Mediterranean
Coordinates: N433000 N433100 E0123600 E0123500
N400152 N400154 E0044747 E0044747
N420700 N420800 E0153000 E0152900
Record ID: 2008128524
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