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author Razum, Ivan
Giaccio, Biagio
Monaco, Lorenzo
Miko, Slobodan
author_facet Razum, Ivan
Giaccio, Biagio
Monaco, Lorenzo
Miko, Slobodan
collection Datos científicos de ciencias marinas y ambientales
contents To investigate the sedimentary record of the Mid Adriatic Deep (Adriatic sea) and its response to climate/oceanographic changes building a satisfactory depth-age model is mandatory. This was partly done with a tephrochronology since two tephra horizons were recognized in the retrieved core. Core POS514-40-11GC (Latitude: 43.483333, Longitude:15.433333, water depth of 217 m) was collected onboard R/V Poseidon during the cruise named "Micropaleontology, Actuopaleontology and Environmental Baseline Study of the Holocene to latest Pleistocene in the Northern and Eastern Adriatic Sea Basin" in May/June 2017. Two tephra horizons were found at 529 and 262 cm of the core depth. Glass shards were extracted and analyzed by EMPA, in total 33 analyses were done. Tephra were correlated with Mercato and Neapolitan Yellow tuff, which served as anchor points for the depth-age model.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_965903
institution PANGAEA
language en
publishDate 2024
publisher PANGAEA
record_format pangaea
spellingShingle Geochemical composition of volcanic glass shards from the sediment core POS514_40-11
Razum, Ivan
Giaccio, Biagio
Monaco, Lorenzo
Miko, Slobodan
Adriatic Sea; Aluminium oxide; Analysis; Calcium oxide; Chlorine; Electron micro probe analyser (EMPA); Fluorine; GC; Gravity corer; Institution; Iron oxide, FeO; Magnesium oxide; Manganese oxide; Normalized; Phosphorus pentoxide; POS514; POS514_40-11; Poseidon; Potassium oxide; QMAD; Run; Run Date/Time; Run Number; Sediment core; Sediments between source and sink during a Late Quaternary eustatic cycle: The Krka river and the Mid Adriatic Deep System; Silicon dioxide; Sodium oxide; Sulfur trioxide; Tephra; Tephrochonology; Titanium dioxide; Total; Total volatile free
To investigate the sedimentary record of the Mid Adriatic Deep (Adriatic sea) and its response to climate/oceanographic changes building a satisfactory depth-age model is mandatory. This was partly done with a tephrochronology since two tephra horizons were recognized in the retrieved core. Core POS514-40-11GC (Latitude: 43.483333, Longitude:15.433333, water depth of 217 m) was collected onboard R/V Poseidon during the cruise named "Micropaleontology, Actuopaleontology and Environmental Baseline Study of the Holocene to latest Pleistocene in the Northern and Eastern Adriatic Sea Basin" in May/June 2017. Two tephra horizons were found at 529 and 262 cm of the core depth. Glass shards were extracted and analyzed by EMPA, in total 33 analyses were done. Tephra were correlated with Mercato and Neapolitan Yellow tuff, which served as anchor points for the depth-age model.
title Geochemical composition of volcanic glass shards from the sediment core POS514_40-11
topic Adriatic Sea; Aluminium oxide; Analysis; Calcium oxide; Chlorine; Electron micro probe analyser (EMPA); Fluorine; GC; Gravity corer; Institution; Iron oxide, FeO; Magnesium oxide; Manganese oxide; Normalized; Phosphorus pentoxide; POS514; POS514_40-11; Poseidon; Potassium oxide; QMAD; Run; Run Date/Time; Run Number; Sediment core; Sediments between source and sink during a Late Quaternary eustatic cycle: The Krka river and the Mid Adriatic Deep System; Silicon dioxide; Sodium oxide; Sulfur trioxide; Tephra; Tephrochonology; Titanium dioxide; Total; Total volatile free
url https://doi.org/10.1594/PANGAEA.965903