Integrated stratigraphy for the Late Quaternary in the eastern Tyrrhenian Sea
Author(s)
Language
English
Obiettivo Specifico
2.2. Laboratorio di paleomagnetismo
Status
Published
JCR Journal
JCR Journal
Peer review journal
Yes
Journal
Issue/vol(year)
/292 (2013)
ISSN
1040-6182
Electronic ISSN
1873-4553
Publisher
Elsevier Science Limited
Pages (printed)
71-85
Date Issued
2013
Abstract
A high-resolution integrated stratigraphy is presented for the Late Quaternary in the southern-eastern Tyrrhenian Sea. It is based on calcareous plankton taxa (planktonic foraminifera and nannoplankton) distribution, d18OGlobigerinoides ruber record, tephrostratigraphy and radiometric dating methods (210Pb and 137Cs, AMS 14C) for a composite sediment core (from the top to the bottom, C90-1m, C90 and C836) from
the continental shelf of the Salerno Gulf. High sedimentation rates from ca 1 cm/100 y for the early Holocene, to 3.45 cm/100 y for the middle Holocene to 8.78 cm/100 y from late Holocene and to 20 cm/100 y for the last 600 AD, make this area an ideal marine archive of secular paleoclimate changes.
Quantitative distributional trend in planktonic foraminifera identify seven known (1Fe7F) eco-biozones, and several auxiliary bioevents of high potential for Mediterranean biostratigraphic correlation. Recognised
were: the acme distribution of Neogloboquadrina pachyderma r.c. between 10.800 0.400 ka BP and 5.500 0.347 ka BP, a strong increase in abundance of Globorotalia truncatulinoides r.c. and l.c. at 5.500 0.347 ka BP and at 4.571 0.96 ka BP, respectively, an acme interval of Globigerinoides quadrilobatus
(between 3.702 0.048 ka BP and 2.70 0.048 ka BP) and the acme/paracme intervals of
T. quinqueloba (acme between 3.350 0.054 ka BP and 1.492 0.016 ka BP; paracme between
1.492 0.016 ka BP and 0.657 0.025 ka BP; acme beginning 0.657 0.025 ka BP).
These results, integrated with trends of selected calcareous nannofossil species (Florisphaera profunda, Brarudosphaera bigelowii, Gephyrocapsa oceanica and Emiliania huxleyi) and d18OG. ruber signature, are consistent with the most important pre-Holocene and early Holocene paleoclimatic and paleoceanographic phases i.e., the BöllingeAllerod, the Younger Dryas and the time interval of Sapropel S1 deposition in the eastern Mediterranean Sea. These features revealed the high potential of this shallow water environment for high-resolution stratigraphy and correlation for the western Mediterranean.
In addition, the chemical characterization of seven tephra layers supplied further data about the age and the dispersal area of some well-known Campi Flegrei explosive events, inferring the possible occurrence of explosive activity at Vesuvius around the middle of the 6th century, and contributing to refine the tephrostratigraphic framework for the last 15 ka in the south-eastern Tyrrhenian Sea.
the continental shelf of the Salerno Gulf. High sedimentation rates from ca 1 cm/100 y for the early Holocene, to 3.45 cm/100 y for the middle Holocene to 8.78 cm/100 y from late Holocene and to 20 cm/100 y for the last 600 AD, make this area an ideal marine archive of secular paleoclimate changes.
Quantitative distributional trend in planktonic foraminifera identify seven known (1Fe7F) eco-biozones, and several auxiliary bioevents of high potential for Mediterranean biostratigraphic correlation. Recognised
were: the acme distribution of Neogloboquadrina pachyderma r.c. between 10.800 0.400 ka BP and 5.500 0.347 ka BP, a strong increase in abundance of Globorotalia truncatulinoides r.c. and l.c. at 5.500 0.347 ka BP and at 4.571 0.96 ka BP, respectively, an acme interval of Globigerinoides quadrilobatus
(between 3.702 0.048 ka BP and 2.70 0.048 ka BP) and the acme/paracme intervals of
T. quinqueloba (acme between 3.350 0.054 ka BP and 1.492 0.016 ka BP; paracme between
1.492 0.016 ka BP and 0.657 0.025 ka BP; acme beginning 0.657 0.025 ka BP).
These results, integrated with trends of selected calcareous nannofossil species (Florisphaera profunda, Brarudosphaera bigelowii, Gephyrocapsa oceanica and Emiliania huxleyi) and d18OG. ruber signature, are consistent with the most important pre-Holocene and early Holocene paleoclimatic and paleoceanographic phases i.e., the BöllingeAllerod, the Younger Dryas and the time interval of Sapropel S1 deposition in the eastern Mediterranean Sea. These features revealed the high potential of this shallow water environment for high-resolution stratigraphy and correlation for the western Mediterranean.
In addition, the chemical characterization of seven tephra layers supplied further data about the age and the dispersal area of some well-known Campi Flegrei explosive events, inferring the possible occurrence of explosive activity at Vesuvius around the middle of the 6th century, and contributing to refine the tephrostratigraphic framework for the last 15 ka in the south-eastern Tyrrhenian Sea.
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Björck, S., Walker, M.J.C., Cwynar, L.C., Johnsen, S., Knudsen, K.-L., Lowe, J.J.,
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2002. A high resolution record of the last deglaciation in the southern Tyrrhenian
Sea: environmental and climatic evolution. Marine Geology 186, 447e470.
Budillon, F., Pescatore, T., Senatore, M.R., 1994. Cicli deposizionali del Pleistocene
SuperioreeOlocene sulla piattaforma continentale del Golfo di Salerno (Tirreno
Meridionale). Bollettino Società Geologica Italiana 113, 303e316.
Budillon, F., Violante, C., Conforti, A., Esposito, E., Insinga, D., Iorio, M., Porfido, S.,
2005. Event beds in the recent prodelta stratigraphic record of the small floodprone
Bonea stream (Amalfi Coast, Southern Italy). Marine Geology 222e223,
419e441.
Budillon, F., Lirer, F., Iorio, M., Macrì, P., Sagnotti, L., Vallefuoco, M., Ferraro, L.,
Garziglia, S., Innangi, S., Sahabi, M., Tonielli, R., 2009. Integrated stratigraphic
reconstruction for the last 80 kyr in a deep sector of the Sardinia Channel
(Western Mediterranean). Deep-Sea Research II 56, 725e737.
Budillon, F., Rosaria Senatore, M., Insinga, D., Iorio, M., Lubritto, C., Roca, M.,
Rumolo, P., 2012. Late Holocene sedimentary changes in shallow water settings:
the case of the Sele river offshore in the Salerno Bay (south-eastern Tyrrhenian
Sea, Italy). Rendiconti Accademia Lincei 23, 25e43.
Cacho, I., Grimalt, J.O., Canals, M., Sbaffi, L., Shackleton, N.J., Schònfeld, J., Zahn, R.,
2001. Variability of the western Mediterranean Sea surface temperatures during
the last 25,000 years and its connection with the northern hemisphere climatic
changes. Paleoceanography 16, 40e52.
Calanchi, N., Dinelli, E., 2008. Tephrostratigraphy of the last 170 ka in sedimentary
successions from the Adriatic Sea. Journal of Volcanology and Geothermal
Research 177, 81e95.
Capotondi, L., Vigliotti, L., 1999. Magnetic and microfaunistical characterization of
late Quaternary sediments in the Western Mediterranean (ODP Leg 161).
Inference on sapropel formation and paleoceanographic evolution. In: Zahn, R.,
Comas, M.C., Klaus, A., (Eds.), Proceedings of the Ocean Drilling Program,
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