Search

Your search keyword '"Daniel Tentori"' showing total 14 results
Start Over Author "Daniel Tentori"
14 results on '"Daniel Tentori"'

2. The paleoenvironment and depositional context of the Sumerian site of Abu Tbeirah (Nasiriyah, southern Mesopotamia, Iraq)

Author

Luca Forti, Licia Romano, Alessandra Celant, Franco D'Agostino, Federico Di Rita, Jaafar Jotheri, Donatella Magri, Ilaria Mazzini, Daniel Tentori, and Salvatore Milli

Subjects
Arts and Humanities (miscellaneous), Abu Tbeirah site, Mesopotamian plain, Sumerian, holocene, paleoenvironmental reconstruction, General Earth and Planetary Sciences, Earth-Surface Processes
Abstract

The Sumerian culture flourished within the Tigris and Euphrates rivers floodplains and along their deltaic systems, which ca. 6000 yr were located ~250–260 km inland from the present Persian Gulf. Here, large floodplains and marshes were crossed by an intricate network of channels where several human settlements developed. In this paper, we describe in detail the paleoenvironmental context where the site of Abu Tbeirah (third millennium BC) developed, near the Sumerian capital of Ur. Our interdisciplinary approach, based on remote sensing and the geomorphological study of the area, as well as on sedimentological, paleontological, and paleobotanical analyses of trenches and boreholes deposits, reveals that the site developed along a sinuous channel in a floodplain and marshy environment, where several crevasse splays occurred. This channel was cut off following a flood event. The abandoned portion of the channel was exploited by residents and used as a small river harbor. Our research contributes to better define how the landscape of the site changed over the course of its history and how humans exploited water resources of the area during occupation of the site, a process that was pivotal for the development of the Sumerian culture.

Published
2022
Full Text
View/download PDF

3. PERL: a dataset of geotechnical, geophysical, and hydrogeological parameters for earthquake-induced hazards assessment in Terre del Reno (Emilia-Romagna, Italy)

Author

Chiara Varone, Gianluca Carbone, Anna Baris, Maria Chiara Caciolli, Stefania Fabozzi, Carolina Fortunato, Iolanda Gaudiosi, Silvia Giallini, Marco Mancini, Luca Paolella, Maurizio Simionato, Pietro Sirianni, Rose Line Spacagna, Francesco Stigliano, Daniel Tentori, Luca Martelli, Giuseppe Modoni, and Massimiliano Moscatelli

Subjects
General Earth and Planetary Sciences
Abstract

In 2012, the Emilia-Romagna region (Italy) was struck by a seismic crisis characterized by two main shocks (ML 5.9 and 5.8) which triggered relevant liquefaction events. Terre del Reno is one of the municipalities that experienced the most extensive liquefaction effects due to its complex geostratigraphic and geomorphological setting. This area is indeed located in a floodplain characterized by lenticular fluvial channel bodies associated with crevasse and levee clay–sand alternations, related to the paleo-Reno River. Therefore, it was chosen as a case study for the PERL project, which aims to define a new integrated methodology to assess the liquefaction susceptibility in complex stratigraphic conditions through a multi-level approach. To this aim, about 1800 geotechnical, geophysical, and hydrogeological investigations from previous studies and new realization surveys were collected and stored in the PERL dataset. This dataset is here publicly disclosed, and some possible applications are reported to highlight its potential.

Published
2023

4. Brief communication: PERL: a dataset of geotechnical, geophysical, and hydrogeological parameters for earthquake-induced hazards assessment in Terre del Reno (Emilia Romagna, Italy)

Author

Chiara Varone, Gianluca Carbone, Anna Baris, Maria Chiara Caciolli, Stefania Fabozzi, Carolina Fortunato, Iolanda Gaudiosi, Silvia Giallini, Marco Mancini, Luca Paolella, Maurizio Simionato, Pietro Sirianni, Roseline Spacagna, Francesco Stigliano, Daniel Tentori, Luca Martelli, Giuseppe Modoni, and Massimiliano Moscatelli

Abstract

In 2012, Italy was struck by a seismic crisis characterized by two main shocks (ML 5.9 and 5.8) and relevant liquefaction events. Terre del Reno (Emilia-Romagna Region) is one of the municipalities that experienced the most extensive liquefaction effects due to its complex geo-stratigraphic and geo-morphological setting. Thus, it was chosen as case study for the PERL project, devoted to defining a new integrated methodology to assess the liquefaction susceptibility in complex stratigraphic conditions through a multi-level approach. About 1800 geotechnical, geophysical and hydrogeological investigations were collected and stored in a publicly available dataset named PERL that is here presented.

Published
2022
Full Text
View/download PDF

5. Supplementary material to 'Brief communication: PERL: a dataset of geotechnical, geophysical, and hydrogeological parameters for earthquake-induced hazards assessment in Terre del Reno (Emilia Romagna, Italy)'

Author

Chiara Varone, Gianluca Carbone, Anna Baris, Maria Chiara Caciolli, Stefania Fabozzi, Carolina Fortunato, Iolanda Gaudiosi, Silvia Giallini, Marco Mancini, Luca Paolella, Maurizio Simionato, Pietro Sirianni, Roseline Spacagna, Francesco Stigliano, Daniel Tentori, Luca Martelli, Giuseppe Modoni, and Massimiliano Moscatelli

Published
2022
Full Text
View/download PDF

6. An integrated approach for engineering - geological modelling in view of seismic microzonation

Author

Chiara Varone, Anna Baris, Maria Chiara Caciolli, Stefania Fabozzi, Carolina Fortunato, Iolanda Gaudiosi, Silvia Giallini, Marco Mancini, Luca Martelli, Giuseppe Modoni, Massimiliano Moscatelli, Luca Paolella, Maurizio Simionato, Pietro Sirianni, Rose Line Spacagna, Francesco Stigliano, Daniel Tentori, and Roberto Razzano

Subjects
Liquefaction, Emilia-Romagna Region, engineering - geological modelling, seismic microzonation
Abstract

Terre del Reno is a municipality in the Emilia-Romagna Region (Italy) that experienced relevant liquefaction events during the 2012 seismic crisis, which was characterised by two main shocks (ML 5.9 and 5.8). Such events are mainly related to the complex geo-stratigraphic setting of the area. In this background, the present work is devoted to achieving two main objectives: i) define a new integrated methodology to assess liquefaction susceptibility in complex stratigraphic conditions through a multi-level approach; ii) perform a level 3 seismic microzonation study of Terre del Reno. To this purpose, more than one thousand geophysical and geotechnical measurements available from three different databases and some hundreds of new collected investigations were stored in a dedicated geodatabase. Data and metadata, that were spatially and statistically manipulated to guarantee their harmonization, standardization, and uniqueness, were explored to reconstruct a model for the Terre del Reno subsoil. Specifically, a geological model of the studied area (~ several hundreds of meters) was first reconstructed as well as the seismic bedrock geometry (the latter defines as the layer characterized by the stiffness requirement: Vs > 800 m/s). This model was obtained by integrating deep bore-hole data available from previous studies and geophysical and geotechnical investigations. Furthermore, a high-resolution geological reconstruction of the upper 30 m has also been performed through sedimentological and paleo morphological analysis to characterize the sedimentary units affected by liquefaction. This analysis may be used to compare both well-known and innovative geotechnical indicators for liquefaction susceptibility assessment. Thus, a set of acceleration time histories, that are spectrum-compatibles with the spectrum of reference input motion at outcropping bedrock of the site, were used as input in 1D and 2D site effect numerical modelling. The obtained results were synthetized and represented in a level 3 seismic microzonation study with the aim of providing operational indicators devoted to urban planning and for challenging problem related to liquefaction.

Published
2022
Full Text
View/download PDF

8. Automatized CPT-based soil profile characterization for liquefaction susceptibility assessment

Author

Anna Baris, Maria Chiara Caciolli, Stefania Fabozzi, Iolanda Gaudiosi, Marco Mancini, Luca Martelli, Giuseppe Modoni, Massimiliano Moscatelli, Luca Paolella, Roberto Razzano, Maurizio Simionato, Rose Line Spacagna, Francesco Stigliano, Daniel Tentori, and Chiara Varone

Subjects
soil profile characterization, Artificial Intelligence, liquefaction, Liquefaction, Artificial Intelligence, Geostatistics, Geostatistics, CPT-based soil profile
Abstract

The huge impact caused by liquefaction during past earthquakes stimulates the interest of researchers in investigating the factors ruling the susceptibility of subsoil and the triggering conditions. The concern of stakeholders raises the need for risk assessment methods applicable at the large scale. A crucial aspect for liquefaction risk assessment consists in the subsoil characterization, with the stratigraphic classification into homogeneous soil layers and the identification of the susceptible volumes, with the aim of constructing 2D and 3D geo-mechanical models. In the current practice, the CPT-based soil behavior type (SBT) and the soil behavior type index (Ic), are widely used to identify soil boundaries discontinuities (Robertson, 2016). Sometimes, the interpretation of subsoil profile is not immediate and unique, due to the lack of evident boundary changes. In these cases, the need is felt for sound, widely applicable tools that provide univocal identification of subsoil strata. Statistical procedure, developed over the years, provides a less subjective interpretation of the subsoil and, in conjunction with artificial intelligence, can lead to improve the current methodology obtaining an objective and extensive site characterization. This work exposes a data-driven analysis for the subsoil stratigraphic recognition combining geostatistical tools and AI genetic algorithms. The presented procedure is calibrated and validated on the case study of Terre del Reno (Italy), severely struck by liquefaction during the 2012 Mw 6.1 earthquake and characterized by complex geo-stratigraphic conditions. The selected area, homogeneously covered by about 1700 geognostic surveys, is investigated within the "PERL" research project, carried out by the Emilia Romagna Region (RER), CNR-IGAG and UniCas-DiCeM, aiming to provide a reliable procedure for liquefaction risk assessment and a seismic microzonation. From the RER geodatabase, 102 pairs of complementary CPT and boreholes were extracted to calibrate the method, defined as the couples of surveys located at a relative distance less than 30m, considered for this purpose as spatially correlated. Starting from the information available from the boreholes, a geologic-sedimentologic study has been carried out to define the main stratigraphic units. In parallel, CPT profiles are processed with a statistical method based on the spatial variability analysis of the measured parameters, identifying statistically homogeneous layers and associating to each of them the correspondent stratigraphic unit reported in the complementary borehole. At this stage, an artificial intelligence algorithm has been calibrated merging the outcomes derived from couples of CPTs and boreholes. Subsequently, the procedure has been applied to the remaining CPTs, combining the geological and geotechnical knowledge of the subsoil in an efficient and automatic way to enable a large-scale reconstruction of the subsoil stratigraphy.

Published
2022

9. Facies, composition and provenance of the Agnone Flysch in the context of the early Messinian evolution of the southern Apennine foredeep (Molise, Italy)

Author

Salvatore Milli, Francesco Muto, Vincenzo Tripodi, Francesco Perri, Salvatore Critelli, Gloria Campilongo, Daniel Tentori, and Emanuele Amicone

Subjects
geography, Provenance, Flysch, geography.geographical_feature_category, Agnone Flysch, turbidite facies, composition, provenance, sandstone, late Miocene, southern Apennines, Geochemistry, Geology, Sedimentary basin, Sedimentary depositional environment, Clastic rock, Facies, General Earth and Planetary Sciences, Sedimentary rock, Sedimentology
Abstract

Clastic wedges deposited in deep-marine turbidite systems along the circum-Mediterranean region represent key tectonic elements that record the structural growing of the Apennine orogenic belt over the Adria margin. One of these clastic wedges is represented by the Agnone Flysch turbidite succession deposited in the Lagonegro-Molise foredeep basin in the early Messinian, for which the depositional facies and the related processes, as well as the sandstone and mudstone composition are poorly known. A combined sedimentology and sedimentary petrology study has been conducted on this turbidite succession that provides new insight to define the basin architecture and the provenance of the Agnone Flysch during late Miocene. Facies analysis suggests that this turbidite succession is constituted by depositional lobes that were emplaced in a sector of the basin showing a variable morphological confinement with frontal and lateral slope on which turbidite deposits onlapped. Consequently, this topographic context controlled the lateral and vertical distribution of turbidite facies, which record the effects of erosive processes, as well as impact, rebound and reflection processes, in turn related to the flow deceleration induced by structurally-controlled basin confinement. Detailed sandstones compositional analysis indicates a complex unroofing history that reflects structural changes in the source rock units and depositional basin physiography. By combining the sandstone composition with information deduced from the X-ray diffraction (XRD) patterns after thermo-chemical treatments (heating and ethylene glycol treatments), it was possible to explain and predict the sedimentary evolution and geological processes affecting fine grained sediments and, thus, the relationship developed between source area and sedimentary basin. In particular, clay minerals data show that Agnone Flysch experienced an early diagenetic condition as showed by the occurrence of the I/S R0 and I/S R1 on the XRD pattern of the glycolated specimens. The sandstone composition (mainly quartzofeldspathic) shows an increase in the metamorphic rock fragments and a decrease of sedimentary lithics up-section. This compositional trend records, together with the paleocurrents data, a derivation of this material from a mountain range located in the Tyrrhenian sector and from the Calabrian arc terranes.

Published
2021

10. Sediment dispersal pathways in the Po coastal plain since the last glacial maximum. Provenance signals of autogenic and eustatic forcing

Author

Daniel Tentori, Kathleen M. Marsaglia, Alessandro Amorosi, Salvatore Milli, Tentori D., Amorosi A., Milli S., and Marsaglia K.M.

Subjects
geography, Provenance, geography.geographical_feature_category, Holocene, Coastal plain, eustacy, Sediment, Geology, Last Glacial Maximum, Forcing (mathematics), Po Delta, autogenic forcing, Po Basin, sand provenance, Oceanography, last glacial maximum, sequence-stratigraphy, Biological dispersal, Sequence stratigraphy
Abstract

We examined downstream trends in sediment composition within the modern Po River system and defined provenance changes within a selected sector of the Upper Pleistocene to Holocene coastal plain in response to paleogeographic reorganisation during the last glacial-interglacial cycle. Sediment composition of the Upper Pleistocene to Holocene alluvial and coastal plain succession overlaps with the modern petrofacies, suggesting that ancient fluvial sand was sourced from a dynamic river system attributable to a distal paleo-Po with episodic sediment input from South Alpine and Apennine rivers. In the wave-dominated estuarine depositional system developed under transgressive conditions, Po-derived detritus mixed in the coastal system with sediment fed by Central/Eastern Alpine rivers, which was redistributed southwards by alongshore currents. A similar, mixed composition of late Holocene highstand depositional systems reflects the progradation of Po delta lobes (similar in composition to Po River sands) and adjacent strandplains (typified by sediment mixing due to alongshore transport). Compositional variability across the main stratigraphic surfaces suggests that autogenic processes (e.g. marine reworking, sedimentary mixing, delta switching/abandonment) in turn influenced by glacioeustasy, controlled the development of the transgressive and highstand Po Plain succession. This study clarifies the effect of fluvial-marine interaction during the Holocene evolution of the Po coastal system and can be used as a model to interpret the evolution of many mixed-delta types and Quaternary successions that shows alternating river-flood and wave-dominated deposits.

Published
2021

11. The changing Patagonian landscape: Erosion and westward sediment transfer paths in northern Patagonia during the Middle and Late Pleistocene

Author

Tania Villaseñor, Kathleen M. Marsaglia, Daniel Tentori, and Luisa Pinto

Subjects
010504 meteorology & atmospheric sciences, Pleistocene, glacial erosion, Ocean Drilling Program, Patagonia, Patagonian Ice Sheet, sediment provenance, source to sink, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Continental margin, 14. Life underwater, Glacial period, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Continental shelf, Sediment, Geology, Glacier, 15. Life on land, Sedimentary rock, Ice sheet
Abstract

[Sediment provenance analysis of the sand and silt size fractions of ODP site 861 (46oS, offshore Patagonia) provides insights into erosion and ice drainage of the Patagonian Ice Sheet during the Middle to Late Pleistocene. Focus of erosion during this time period is related to a combined climatic and structural influence on glacial erosion. Temporal variations in sediment provenance contemporaneous with a change in the stratigraphy of this site suggest a re‐organization of ice extent and drainage towards the ocean around 240 kyr ago. These results contribute to constrain ice dynamics of the western side of the Patagonian Ice Sheet during the Pleistocene. , Abstract Pleistocene glaciations have promoted important landscape transformations as a result of high rates of erosion and rapid sediment evacuation to adjacent marine basins. In the Patagonian Andes the role of the Patagonian Ice Sheet on landscape evolution, in particular the spatial patterns of glacial erosion and its influence on sediment fluxes, is poorly documented. Here, we investigate the Middle and Late Pleistocene sedimentary record of the continental slope from Ocean Drilling Program (ODP) Site 861, offshore Patagonia (46°S), to evaluate the link between glaciations, mountain range erosion and continental margin strata formation. Petrographic analysis of the sand‐size fraction (0.063–2 mm) and ɛNd and 87Sr/86Sr measurements in the silt‐size fraction (10–63 µm) indicate that glacial erosion over the last 350,000 years has focused within the Patagonian Batholith, with a minor influence of a proximal source to the drilling site, the Chonos Metamorphic Complex. This shows that erosion has focused in the core of the northern Patagonian Andes, coinciding roughly with the location of the Liquine‐Ofqui Fault Zone and the zone of concentrated precipitation during glaciations, suggesting a combined climatic and structural control on glacial erosion. Temporal variation in the provenance signal is contemporaneous with a marked change in the stratigraphy of ODP Site 861 that occurred after the glaciation of MIS 8 (~240 kyr ago). Before MIS 8, a restricted provenance signal and coarse lithofacies accumulated on the continental slope indicates spatially restricted erosion and efficient transfer of sediment towards the ocean. In contrast, very high provenance variability and finer continental slope lithofacies accumulation after MIS 8 suggest a disorganized expansion of the areas under erosion and a more distal influence of ice sediment discharge to this site. We argue that this change may have been related to a re‐organization of the drainage patterns of the Patagonian Ice Sheet and flow of outlet glaciers to the continental margin during the last two glaciations.]

Published
2020

12. A Source-to-Sink Compositional Model of a Present Highstand: An Example in the Low-Rank Tiber Depositional Sequence (Latium Tyrrhenian Margin, Italy)

Author

Salvatore Milli, Daniel Tentori, and Kathleen M. Marsaglia

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Sorting (sediment), Geochemistry, Detritus (geology), Fluvial, Geology, source-to-sink, low-rank depositional sequence, Tiber delta, Italy, 010502 geochemistry & geophysics, 01 natural sciences, Spource -to sink, highstand, Sedimentary depositional environment, Lithic fragment, River mouth, Siliciclastic, Sedimentary rock, 0105 earth and related environmental sciences
Abstract

Our source-to-sink compositional model of sediment distribution in the present highstand of the Tiber Depositional Sequence has important implications for sediment source lithology, generation, transport, and deposition. In the Tiber River system, sand compositional trends reflect provenance mixing, anthropic intervention, and the effects of local autogenic factors in continental to marine depositional environments. Fluvial feldspatho-quartzo-lithic sand results from the contribution of the major tributaries of the Tiber drainage basin, which can be divided into two sub-basins separated by the Corbara dam built in the 1950s. Upstream-drainage-basin sand has a siliciclastic sedimentary lithic signature, whereas carbonate and volcanic lithic fragments dominate downstream-drainage-basin sand. Downstream sand is further modified in the coastal environment by hydraulic sorting, and mixed with detritus derived from the recycling of coastal dune sand and altered volcaniclastic paleosols. The latter are associated with lower-course floodplain and channel deposits, which produce a quartzo-feldspatho-lithic sand. Sediment grain-size zonation in the marine environment is influenced by coastal hydrodynamics, which, in turn, produce two detrital populations with distinct compositional signatures and hydraulic behavior. Coarser minerals (essentially pyroxene phenocrysts) and finer feldspar grains are progressively concentrated in higher-energy and lower-energy environments, respectively. Biogenic continental shelf and slope deposits off the Tiber River mouth show very little riverine influence. This study of the last highstand system tract in the Tiber Depositional Sequence clarifies the effects of hydraulic sorting, grain-size dependence, and sediment reworking in controlling the final composition of modern sand. This knowledge can be used to better understand detrital modes of ancient sedimentary successions.

Published
2018
Full Text
View/download PDF

13. The mudstone composition as reflected in the sedimentary evolution of a turbidite basin: The example of the Agnone Flysch (Molise, Italy)

Author

Francesco Perri, Gloria Campilongo, Salvatore Milli, Daniel Tentori, and Salvatore Critelli

Subjects
Provenance, Felsic, Flysch, Stratigraphy, Metamorphic rock, Geochemistry, mineralogy, composition, mudstone, sedimentary evolution, Detritus (geology), Geology, Oceanography, Sedimentary depositional environment, Geophysics, Source rock, Economic Geology, Sedimentary rock
Abstract

Chemical and mineralogical signatures of mudstones from the Agnone Flysch turbidite successions (late Tortonian to early Messinian) deposited in the Lagonegro-Molise foredeep basin reveal new insight for the sedimentary evolution of the southern Apennines during late Miocene. Geochemical and mineralogical signatures of the Verrino and Poggio Villanelle members of the Agnone Flysch mark a complex sedimentation history testifying to a multi-source area probably due to structural changes and depositional basin physiography. The studied mudstones show chemical variations in term of Ca vs. Si and Al. Mineralogical analyses confirm a decrease of carbonate minerals and an increase of silicate phases passing from Verrino Member to Poggio Villanelle Member samples. Compositional data of the mudstone samples of both members mainly record a derivation from felsic rocks due to the Calabrian terranes unroofing. Poggio Villanelle Member samples further show an enrichment in Cr, Ni, Fe e Mg in accordance with higher chlorite content suggesting a mafic supply probably related to an ophiolitic source successively exposed. Thus, those trends based on chemical and mineralogical data suggest a change in relative abundance of a detritus characterized by different compositions through time and space. Whole rock geochemistry of the studied mudstones indicate that they are from the first-cycle sediments. Palaeoweathering processes in source areas were moderate as shown by CIA (Chemical Index of Alteration) and CIA’ (modified Chemical Index of Alteration) values of the mudstones of both members (Verrino and Poggio Villanelle members). The trends observed in the paleoweathering diagrams suggest source areas characterized by moderate weathering in non-steady-state conditions which have changed toward the upper portion of the sedimentary succession. Those changes are mainly related to the geodynamic conditions of the source areas where active tectonism allows erosion of all zones within weathering profiles developed on source rocks. The paleocurrent data and the compositional analysis of the mudstones and sandstones indicate a provenance (supply) from the western, north-western, and south-western sectors of the basin where carbonate platforms and magmatic, metamorphic and sedimentary rocks cropped out.

Published
2021
Full Text
View/download PDF

14. Sand compositional changes as a support for sequence-stratigraphic interpretation: the Middle-Upper Pleistocene to Holocene deposits of the Roman Basin (Rome, Italy)

Author

Salvatore Milli, Kathleen M. Marsaglia, and Daniel Tentori

Subjects
Provenance, 010504 meteorology & atmospheric sciences, Pyroclastic rock, Detritus (geology), Geology, 010502 geochemistry & geophysics, 01 natural sciences, Paleosol, Sedimentary depositional environment, Paleontology, Sequence stratigraphy, Siliciclastic, Sedimentary rock, sand composition, sequence stratigraphy, Roman Basin, Middle-Upper Pleistocen to Hoocene, 0105 earth and related environmental sciences
Abstract

Sand composition is one of the factors of a stratigraphic succession that best records the interaction between allogenic and autogenic processes. This is particularly true for the Quaternary successions where the effects of this processes are better recognized and differentiated. The Quaternary succession of the Roman Basin and, in particular, the one developed during the late early Pleistocene to Holocene, records a close interaction among tectonic uplift, volcanism, climate, and glacio-eustasy. Such interaction is reflected in a complex stratal pattern and stratigraphic architecture where high-rank and low-rank depositional sequences are developed and where qualitative and quantitative changes in sand composition are recorded in the same systems tracts. The analyzed succession corresponding to the high-rank Ponte Galeria sequence (PGS) was supplied by the Tiber River and its tributaries, which developed along the Latium Tyrrhenian margin; such deposits include sediment derived from carbonate to siliciclastic Meso-Cenozoic rocks and from Pleistocene volcanic complexes of the Roman Magmatic Province. We defined three main sand petrofacies (A, B, C) that have a good correspondence with lowstand (LST), transgressive (TST), and highstand (HST) systems tracts of PGS, which reflect changes in sand composition and sand provenance under the effects of tectonism, volcaniclastic input, sedimentary processes, and relative sea-level variations. Petrofacies A is feldspatho-litho-quartzose to feldspatho-quartzo-lithic in composition. It records the erosion and influx of siliciclastic and carbonate rock detritus without volcanic input into the LST fluvial and coastal sands of the PGS. Petrofacies B is characterized by a modal composition varying from feldspathic to litho-feldspathic and feldspatho-quartzo-lithic. It characterizes the TST of the PGS and reflects the abrupt and rapid introduction of volcaniclastic sediment into the system. Petrofacies C is feldspatho-quartzo-lithic in composition. This petrofacies characterizes the HST of PGS and, with respect to the other two petrofacies, better records the effects of downstream transport and river-mouth sedimentary processes. Sand samples collected from ancient deposits are similar in composition to the modern Tiber River, suggesting provenance from a similar river system. Results show that tectonism during middle–upper Pleistocene volcanic activity in the Sabatini, Cimini, and Vulsini volcanic complexes played a major role controlling stream-network reorganization in the Tiber drainage basin and resulted in enhanced volcaniclastic input from ash fall and recycling of pyroclastic flows. Volcanic input (volcanic lithics and associated phenocrysts) and postdepositional alteration during paleosol development define pre-, syn-, and post-volcanic compositions in the high-rank Ponte Galeria depositional sequence. In low-rank depositional sequences, several processes produced variable quartz/feldspar and quartz/lithic ratios, as well as textural changes; these include hydraulic sorting during fluvial and coastal transport and postdepositional in situ weathering processes. Weathering and pedogenic processes in the source area (catchment) potentially remove provenance information, reducing correlation potential of petrographic signatures of proximal successions in the Tiber River sedimentary basin. This work tests the effectiveness of using variation in sand composition as a tool in sequence stratigraphy.

Published
2017

Catalog

Books, media, physical & digital resources
See catalog results