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Stratigraphic signature of the Vesuvius 79 AD event off the Sarno prodelta system, Naples Bay. (Articolo in rivista)
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- Stratigraphic signature of the Vesuvius 79 AD event off the Sarno prodelta system, Naples Bay. (Articolo in rivista) (literal)
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- 2005-01-01T00:00:00+01:00 (literal)
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- SACCHI M.; INSINGA D.; MILIA A.; MOLISSO F.; RASPINI A.; TORRENTE M.M.; CONFORTI A. (literal)
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- Istituto per l'Ambiente Matino Costiero (IAMC) (literal)
- Titolo
- Stratigraphic signature of the Vesuvius 79 AD event off the Sarno prodelta system, Naples Bay. (literal)
- Abstract
- Sedimentological and chemical analysis of gravity core samples, along with the interpretation of very high resolution,
single channel seismic reflection profiles acquired off the Sarno prodelta system (southeastern Naples Bay), document the
sedimentary facies and seismic stratigraphic signature of the tephra deposit erupted by Vesuvius during the plinian eruption
of 79 AD.
The 79 AD pyroclastic deposits sampled off the Sarno prodelta system revealed significantly different characters with
respect to both the subaerial succession documented from the type sections of Pompeii, Herculaneum and Oplontis and the more
distal pyroclastic fallout deposits that were recovered from the outer continental shelf off the northern Salerno Bay. This was
likely to be expected as, in proximal subaqueous settings, both primary deposition and reworking of tephra are known to be
influenced by the hydrodynamics of the water itself (induced by the pyroclastic currents entering the sea) as well as by the early
instability of pyroclastic bedforms due to the exceptionally high sediment yield during volcanic eruption.
According to the data illustrated and discussed in this study, we suggest that the 79 AD tephra deposit sampled off the
Sarno prodelta is likely to be the result of a number of syn-eruptive genetically-related depositional and/or erosional
mechanisms associated with (1) anomalous waves (tsunami) and currents generated by the entrance of pyroclastic flows and
surges into the sea; (2) subaqueous density flows evolved from the impact of hot pyroclastic currents into the seawater; (3)
failure of water-logged, cohesionless pumice deposits, due to instability of pyroclastic bedforms rapidly accumulating on the
seafloor.
Seismic interpretation revealed that the Upper Holocene sequence off the Sarno prodelta system is affected by extensive
creep involving the whole post-79 AD succession. Deformation due to creep is documented by slumping of semiconsolidated
strata over a basal surface represented by the lithologic discontinuity between the base of the 79 AD tephra
deposits and the underlying hemipelagite. Seismic data also suggest that gravitational instability of this area has been
induced, or enhanced, by significant volcanotectonic deformation and local uplift of the seafloor that ostensibly predated the
eruptive event. (literal)
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