Data di Pubblicazione:
2021
Abstract:
This geological guide presents the description of locations associated with a two-day field trip arranged in
relation to the 10th International Congress of Tidal Sedimentology (Tidalites), Matera, Italy. The field guide
describes sedimentological features of the largest among a series of tectonically controlled tidal straits that
dissected the Calabrian Arc in southern Italy during the Early Pleistocene. The WNW-ESE trending, 50x20 km wide Siderno Strait connected the Tyrrhenian with the Ionian seas. Due to tidal phase opposition between the
two basins, continuous water-mass exchanges occurred through the strait, leading to powerful, bi-directionally
flowing tidal currents. Sediments filling the Siderno Strait derived from both fluvial supply from the margins
and intra-basinal autochthonous carbonate-factory debris. The main objective of the two-day field trip is to
guide the visitor through a cross-section of the ancient strait, starting from one of the margins, ending in the
deeper axial zone. The focus during the day one is on strait-margin deltaic fluvial-dominated deposits, shed
from the tectonically-controlled, northern border and reworked by tidal currents in their distal reaches (delta
front). Erosively-based, 4-5 m-thick pebbly-sandstone strata intercalated with 2-3 m-thick tidally-generated
cross strata stack into a ca. 170 m-thick succession, exposed in a series of outcrops progressively located
down-current with respect to the inferred entry point to the north. The focus of the day two is a ca. 150-190
m-thick succession consisting of cross-stratified mixed (bioclastic-siliciclastic) deposits, forming a series of
WNE-ESE-oriented, elongated ridges that accumulated in the south-eastern axial zone of the Siderno Strait.
The selected stops offer panoramic views of exceptionally continuous sections and close-up observations,
revealing different scales of depositional architectures and a variety of sedimentary structures and trace fossils
that record the development of these tidal sand ridges during the strait lifespan. The interplay between the
tectonic uplift of a central bedrock sill and a number of syn-sedimentary faults and high-frequency relative sea-level changes (induced by glacio-eustacy and active tectonics) can be deciphered from the architecture of the
tidally-generated cross strata composing the main body of the ridges.
relation to the 10th International Congress of Tidal Sedimentology (Tidalites), Matera, Italy. The field guide
describes sedimentological features of the largest among a series of tectonically controlled tidal straits that
dissected the Calabrian Arc in southern Italy during the Early Pleistocene. The WNW-ESE trending, 50x20 km wide Siderno Strait connected the Tyrrhenian with the Ionian seas. Due to tidal phase opposition between the
two basins, continuous water-mass exchanges occurred through the strait, leading to powerful, bi-directionally
flowing tidal currents. Sediments filling the Siderno Strait derived from both fluvial supply from the margins
and intra-basinal autochthonous carbonate-factory debris. The main objective of the two-day field trip is to
guide the visitor through a cross-section of the ancient strait, starting from one of the margins, ending in the
deeper axial zone. The focus during the day one is on strait-margin deltaic fluvial-dominated deposits, shed
from the tectonically-controlled, northern border and reworked by tidal currents in their distal reaches (delta
front). Erosively-based, 4-5 m-thick pebbly-sandstone strata intercalated with 2-3 m-thick tidally-generated
cross strata stack into a ca. 170 m-thick succession, exposed in a series of outcrops progressively located
down-current with respect to the inferred entry point to the north. The focus of the day two is a ca. 150-190
m-thick succession consisting of cross-stratified mixed (bioclastic-siliciclastic) deposits, forming a series of
WNE-ESE-oriented, elongated ridges that accumulated in the south-eastern axial zone of the Siderno Strait.
The selected stops offer panoramic views of exceptionally continuous sections and close-up observations,
revealing different scales of depositional architectures and a variety of sedimentary structures and trace fossils
that record the development of these tidal sand ridges during the strait lifespan. The interplay between the
tectonic uplift of a central bedrock sill and a number of syn-sedimentary faults and high-frequency relative sea-level changes (induced by glacio-eustacy and active tectonics) can be deciphered from the architecture of the
tidally-generated cross strata composing the main body of the ridges.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Tidal cross stratification; tectonic control; tidal currents; strait-margin zone; dune-bedded zone; tidal sand ridges; Calabria; southern Italy
Elenco autori:
Rossi, VALENTINA MARZIA
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