1. Carbonate-to-biosilica transition at the Norian–Rhaetian boundary controlled by rift-related subsidence in the western Tethyan Lagonegro Basin (southern Italy)
- Author
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Casacci M.[1], Bertinelli A.[1], Algeo T.J.[2, and Rigo M. [4
- Subjects
010504 meteorology & atmospheric sciences ,Evolution ,Weathering ,Structural basin ,010502 geochemistry & geophysics ,Oceanography ,01 natural sciences ,UPPER Triassic ,Paleontology ,chemistry.chemical_compound ,Chemical index of alteration ,Elemental geochemistry ,Rare earth elements ,Redox conditions ,Ecology, Evolution, Behavior and Systematics ,Earth-Surface Processes ,Behavior and Systematics ,UpperTriassic ,0105 earth and related environmental sciences ,Rift ,Ecology ,Elemental geochemistry, Rare earth elements, Chemical index of alteration, Redox conditions, UpperTriassic ,Tethys Ocean ,Debris ,Seafloor spreading ,Secular variation ,chemistry ,Carbonate ,Geology - Abstract
The Lagonegro Basin, located in the Southern Apennines, Italy, records a transition from carbonate sediments of the Calcari con Selce Fm. (“Cherty Limestone”) to biosiliceous sediments of the Scisti Silicei Fm. (“Siliceous Shale”) around the Norian–Rhaetian boundary (NRB), Upper Triassic. Sedimentologic and chemostratigraphic analysis of three sections (Pignola-Abriola, Monte Volturino, and Madonna del Sirino) representing a proximal-to-distal transect across the basin document marine productivity, redox, and chemical weathering conditions. The basin was characterized by low to moderate productivity and mainly oxic deep waters, with no systematic secular variation throughout the ~ 10-Myr-long study interval. A weathering proxy, the chemical index of alteration (CIA*), shifts toward higher values (from ~ 0.70 to ~ 0.80) in all three study sections, suggesting development of warmer and/or more humid conditions just before the NRB. The lack of evidence for changes in marine productivity or redox conditions and the time-transgressive nature of the carbonate-biosilica transition suggests that the latter was caused not by changes in planktonic communities but, rather, by a rise in the CCD, the most likely cause of which was seafloor subsidence within the actively rifting Ionian Ocean (i.e., the westernmost branch of the Tethys Ocean). The tectonically active character of the Lagonegro Basin is also reflected in evidence of synsedimentary paleoseismic activity, e.g., numerous debris flows around the basin margins. The present study thus documents sedimentologic changes within a marginal basin in a geologically young ocean.
- Published
- 2016