Your search keyword '"Luigi Bruno"' showing total 8 results

1. Sedimentary facies characterization through <scp>CPTU</scp> profiles: An effective tool for subsurface investigation of modern alluvial and coastal plains

Author

Bruno Campo, Luigi Bruno, and Alessandro Amorosi

Subjects

Stratigraphy, General Earth and Planetary Sciences, Geology, General Environmental Science

Published

2023

2. Millennial‐scale shifts in microtidal ecosystems during the Holocene: dynamics and drivers of change from the Po Plain coastal record (NE Italy)

Author

Marco Cacciari, Luigi Bruno, Stefano Claudio Vaiani, Silvia Marvelli, Bruno Campo, Marco Marchesini, Giulia Barbieri, Veronica Rossi, Alessandro Amorosi, Rossi V., Barbieri G., Vaiani S.C., Cacciari M., Bruno L., Campo B., Marchesini M., Marvelli S., and Amorosi A.

Subjects

Holocene, Scale (ratio), Meiobenthos, climate change effects, Paleontology, climate change effect, Mediterranean wetland, Oceanography, Arts and Humanities (miscellaneous), pollen, meiofauna, Earth and Planetary Sciences (miscellaneous), Mediterranean wetlands, Ecosystem, Geology

Abstract

Framed into a robust stratigraphic context, multivariate analyses on the Holocene palaeobiological record (pollen, benthic foraminifers, ostracods) of the Po coastal plain (NE Italy) allowed the investigation of microtidal ecosystems variability and driving parameters along a 35-km-long land–sea transect. Millennial-scale ecosystem shifts are documented by coeval changes in the meiofauna, reflecting variations in organic matter–water depth (shallow-marine environments) and degree of confinement-salinity (back-barrier settings). In-phase shifts of vegetation communities track unsteady water-table levels and river dynamics in freshwater palustrine areas. Five environmental–ecological stages followed one another crossing four tipping points that mark changes in relative sea level (RSL), climate and/or fluvial regime. At the culmination of Mediterranean RSL rise, after the 8200 event, remarkable growth of peatlands took place in the Po estuary, while low accumulation rates typified the shelf. At the transgressive–regressive turnaround (~7000 cal a bp), the estuary turned into a delta plain with tidally influenced interdistributary embayments. River flow regime oscillations after the Climate Optimum (post-5000 cal a bp) favoured isolation of the bays and the development of brackish wetlands surrounded by wooded peatlands. The youngest threshold (~800 cal a bp), which led to the establishment of the modern delta, reflects a major avulsion of the Po River.

Published

2021

3. Hybrid Camouflaged Anticounterfeiting Token in a Paper Substrate

Author

Antonio Ferraro, Giuseppe Emanuele Lio, Mauro Daniel Luigi Bruno, Sara Nocentini, Maria Penolepe De Santo, Diederik Sybolt Wiersma, Francesco Riboli, Roberto Caputo, and Riccardo Cristoforo Barberi

Subjects

Mechanics of Materials, General Materials Science, Industrial and Manufacturing Engineering

Published

2022

4. Peat layer accumulation and post‐burial deformation during the mid‐late Holocene in the Po coastal plain (Northern Italy)

Author

Andrea Di Martino, Luigi Bruno, Alessandro Amorosi, Wan Hong, Bruno Campo, Bruno L., Campo B., Di Martino A., Hong W., and Amorosi A.

Subjects

Delta, strata deformation, geography, Peat, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Coastal plain, Geology, 010502 geochemistry & geophysics, 01 natural sciences, law.invention, Sedimentary depositional environment, Paleontology, Stratigraphy, law, holocene, Sedimentary rock, peat layer, Po coastal plain, Radiocarbon dating, Holocene, 0105 earth and related environmental sciences

Abstract

Peat horizons are characteristic features of delta plains worldwide. In this study, we tested the use of peat-based correlations to assess the deformation of Holocene strata in the Po coastal plain (Northern Italy). The Holocene stratigraphy, about 30km inland from the modern coastline consists of a peat-bearing, estuarine and deltaic succession, up to 23m thick. Through the analysis of 31 core data and 100 piezocone penetration tests, we identified and mapped three 10–40cm-thick peat layers (T1–T3) dated to 6.6–5.8, 5.5–5.0 and 3.3–2.7cal kyr BP respectively. These peat horizons were found to be suitable stratigraphic markers within the Holocene succession over an area of about 200km2. The mid-late Holocene palaeogeography, reconstructed through high-resolution peat correlation, supported by 72 radiocarbon dates, highlights a typical upper delta plain environment, with ribbon-shaped distributary channels and swamp interdistributary areas. Peat layers are inclined towards E-NE with gradients that increase downsection from ~0.016% (T3) to 0.021% (T1). The gradient of the oldest peat horizon is one order of magnitude larger than the slope of the modern delta plain (~0.0025%). We infer that peat horizons accumulated during periods of low sediment supply mainly controlled by autogenic processes and were deformed after deposition. Differential compaction of underlying sedimentary strata and recent tectonic activity of the buried Apenninic thrust systems are the most likely drivers of strata deformation. Based on isochore maps, we document that higher sedimentation rates in topographically depressed areas compensated, in part at least, the ongoing deformation, keeping unaltered the topographic gradient and the depositional environment. This study demonstrates that peat-based correlation and mapping can shed lights on the mechanisms of strata accumulation and deformation in deltaic settings, constituting a robust basis for reconstructing delta evolution.

Published

2019

5. Deformation patterns of upper Quaternary strata and their relation to active tectonics, Po Basin, Italy

Author

Luigi Bruno, Alessandro Amorosi, Stefano Claudio Vaiani, Vincenzo Picotti, Bruno Campo, Wan Hong, Bianca Costagli, Amorosi A., Bruno L., Campo B., Costagli B., Hong W., Picotti V., and Vaiani S.C.

Subjects

Holocene, Stratigraphy, Po Plain, Geology, sediment core analysis, Deformation (meteorology), Structural basin, sediment core analysi, near-surface deformation, Quaternary, stratigraphic marker, Paleontology, Tectonics, General Earth and Planetary Sciences, General Environmental Science

Abstract

Despite increased application of subsurface datasets below the limits of seismic resolution, reconstructing near-surface deformation of shallow key stratigraphic markers beneath modern alluvial and coastal plains through sediment core analysis has received little attention. Highly resolved stratigraphy of Upper Pleistocene to Holocene (Marine Isotope Stage 5e to Marine Isotope Stage 1) alluvial, deltaic and coastal depositional systems across the southern Po Plain, down to 150 m depth, provides an unambiguous documentation on the deformation of previously flat-lying strata that goes back in time beyond the limits of morphological, historical and palaeoseismic records. Five prominent key horizons, accurately selected on the basis of their sedimentological characteristics and typified for their fossil content, were used as highly effective stratigraphic markers (M1 to M5) that can be tracked for tens of kilometres across the basin. A facies-controlled approach tied to a robust chronology (102 radiocarbon dates) reveals considerable deformation of laterally extensive nearshore (M1), continental (M2 and M3) and lagoon (M4 and M5) marker beds originally deposited in a horizontal position (M1, M4 and M5). The areas where antiformal geometries are best observed are remarkably coincident with the axes of buried ramp anticlines, across which new seismic images reveal substantially warped stratal geometries of Lower Pleistocene strata. The striking spatial coincidence of fold crests with the epicentres of historic and instrumental seismicity suggests that deformation of marker beds M1 to M5 might reflect, in part at least, syntectonically generated relief and, thus, active tectonism. Precise identification and lateral tracing of chronologically constrained stratigraphic markers in the(14)C time window through combined sedimentological and palaeoecological data may delineate late Quaternary subsurface stratigraphic architecture at an unprecedented level of detail, outlining cryptic stratal geometries at the sub-seismic scale. This approach is highly reproducible in tectonically active Quaternary depositional systems and can help to assess patterns of active deformation in the subsurface of modern alluvial and coastal plains worldwide., Sedimentology, 68 (1), ISSN:0037-0746, ISSN:1365-3091

Published

2021

6. Early Holocene transgressive palaeogeography in the Po coastal plain (northern Italy)

Author

Veronica Rossi, Alessandro Amorosi, Daniele Scarponi, Luigi Bruno, Bruno Campo, Wan Hong, Irene Sammartino, Tina M. Drexler, Kevin M. Bohacs, Bruno, Luigi, Bohacs, Kevin M., Campo, Bruno, Drexler, Tina M., Rossi, Veronica, Sammartino, Irene, Scarponi, Daniele, Hong, Wan, and Amorosi, Alessandro

Subjects

010504 meteorology & atmospheric sciences, Coastal plain, Stratigraphy, wave-dominated estuary, 010502 geochemistry & geophysics, 01 natural sciences, Early Holocene, Paleontology, eustatic rise, Palaeogeography, Geomorphology, Holocene, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, local factors, Po coastal plain, transgressive parasequences, Geology, Northern italy, local factor, transgressive parasequence, Transgressive

Abstract

To understand the complex stratigraphic response of a coastal depositional system to rapid eustatic rise and sediment inputs, the evolution of the Adriatic coastline and Po River system, during the post-glacial (Holocene) transgression, was investigated. The landward migration and evolution of a wave-dominated estuary was mapped, based on an extensive data set comprising 14 boreholes, 28 core descriptions and 308 piezocone tests, chronologically constrained between 11·5 and 7·0Âkyr bp by 137 radiocarbon dates. Palaeogeographic maps reveal temporal differences in retrogradational geometries and mechanisms that likely underpin shoreline retreat. The Po estuary initially developed within a shallowly incised valley and then spread onto the interfluves. Between 11·5 and 9·2Âkyr bp the Po fluvial system became avulsive/distributive and wetlands developed in topographically depressed areas. The shoreline retreated at a mean rate of ca 10ÂmÂyear−1, between 9·2Âkyr and 7·7Âkyr bp, following a stepped trajectory at the centennial scale. After 7·7Âkyr bp, bayhead deltas started to prograde and partially filled the estuary. The overall stratigraphic architecture is interpreted to reflect the sedimentary response of the coastal depositional system to the main pulses of early Holocene eustatic rise. The influence of antecedent topography, partly due to local subsidence, was dominant at the time of initial transgression. Basin morphology influenced sediment dispersal and partitioning. Sediment supplied by the Po River was trapped within the estuary, whereas coastal sand bodies at the estuary mouth were fed by alongshore currents and by reworking of older barriers. High-resolution age control that ties facies evolution to independently constrained eustasy provides direct data to test models of short-term coastal retreat under conditions of relative sea-level rise, and makes this case study a useful analogue for the interpretation of ancient marginal-marine, retrogradational systems where only stratal geometries are available.

Published

2017

7. Late Quaternary aggradation rates and stratigraphic architecture of the southern Po Plain, Italy

Author

Alessandro Amorosi, Bianca Costagli, Luigi Bruno, P. Severi, Bruno, Luigi, Amorosi, Alessandro, Severi, Paolo, and Costagli, Bianca

Subjects

010506 paleontology, Paleontology, Aggradation, Geology, Architecture, 010502 geochemistry & geophysics, Quaternary, 01 natural sciences, Geomorphology, 0105 earth and related environmental sciences

Abstract

The Po River Basin, where accumulation and preservation of thick sedimentary packages are enhanced by high rates of tectonic subsidence, represents an ideal site to assess the relations between vertical changes in stratigraphic architecture and sediment accumulation rates. Based on a large stratigraphic database, a markedly contrasting stratigraphy of Late Pleistocene and Holocene deposits is reconstructed from the subsurface of the modern alluvial and coastal plains. Laterally extensive fluvial channel bodies and related pedogenically modified muds of latest Pleistocene age are unconformably overlain by Holocene overbank fines, grading seaward into paralic and nearshore facies associations. In the interfluvial areas, a stiff paleosol, dating at about 12.5–10cal ky BP, marks the Pleistocene–Holocene boundary. Across this paleosol, aggradation rates (ARs) from 16 radiocarbon-dated cores invariably show a sharp increase, from 0.1–0.9mmyear−1 to 0.9–2.9mmyear−1. Comparatively lower Pleistocene values are inferred to reflect fluvial activity under a low-accommodation (lowstand and early transgressive) regime, whereas higher ARs during the Holocene are related to increasing accommodation under late transgressive and highstand conditions. Holocene sediment accumulation patterns vary significantly from site to site, and do not exhibit common trends. Very high accumulation rates (20–60mmyear−1) are indicated by fluvial channel or progradational delta facies, suggesting that extremely variable spatial distribution of Holocene ARs was primarily controlled by autogenic processes, such as fluvial channel avulsion or delta lobe switching. Contrasting AR between uppermost Pleistocene and Holocene deposits also are reported from the interfluves of several coeval, alluvial-coastal plain systems worldwide, suggesting a key control by allogenic processes. Sediment accumulation curves from adjacent incised valley fills show, instead, variable shapes as a function of the complex mechanisms of valley formation and filling.

Published

2016

8. The value of pocket penetration tests for the high-resolution palaeosol stratigraphy of late Quaternary deposits

Author

Luigi Bruno, Alessandro Amorosi, Bruno Campo, and Agnese Morelli

Subjects

Paleontology, law, Facies, High resolution, Geology, Alluvium, Quaternary, Petrology, Paleosol, Penetrometer, Penetration test, law.invention

Abstract

Pocket penetrometer measurements, though commonly listed as accessory components of core descriptions, are almost totally ignored in shallow subsurface stratigraphic analysis. In this study, we prove that, if properly calibrated with core data, pocket penetration tests may serve as a quick and inexpensive tool to enhance high-resolution (palaeosol-based) stratigraphy of unconsolidated, late Quaternary non-marine deposits. A palaeosol sequence, made up of 12 vertically stacked, weakly developed palaeosols (Inceptisols) dated to the last 40 ky cal BP, is reconstructed from the subsurface of the southern Po Plain. The individual palaeosols exhibit flat to slightly undulating geometries and several of them can be tracked over distances of tens of km. They show substantially higher compressive strength coefficients than all other fine-grained, alluvial (floodplain) facies, being typified by distinctive penetration resistance, in the range of 3.5–5 kg/cm2. Along the palaeosol profiles, A and Bk horizons demonstrate consistent difference in relative compressive strengths, the highest values being almost invariably observed at the A/Bk boundary. Palaeosols are rarely described in conventional stratigraphic logs, and just a small proportion of them is likely to be identified by geologists with no specific sedimentological training. Through core–log calibration techniques, we document that vertical profiles of penetration resistance measured in the field can be used as an efficient method for palaeosol identification, and thus may represent a strategy for predicting stratigraphic architecture from limited core descriptions or poor-quality field logs. This technique allows to optimize the contribution of all available stratigraphic information, expanding significantly the coverage of well-described, one-dimensional core data. Copyright © 2014 John Wiley & Sons, Ltd.

Published

2014