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2. Fracture simulation parameters of fractured reservoirs: Analogy with outcropping carbonates of the Inner Apulian Platform, southern Italy

Author

Paola Castelluccio, Vincenzo La Bruna, Elisa Panza, Andrea Rustichelli, Maurizio Giorgioni, Alessandro Giuffrida, Emanuele Tondi, and Fabrizio Agosta

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Outcrop, Isotropy, Geology, Slip (materials science), Fault (geology), 010502 geochemistry & geophysics, 01 natural sciences, Cretaceous, Diagenesis, Tectonics, Petrology, Foreland basin, 0105 earth and related environmental sciences
Abstract

This work focuses on the nature, relative timing, and multi-scale dimensional properties of both background and fault-related fracture networks that crosscut the Lower Cretaceous shallow-water carbonates exposed at the Monte Alpi, southern Italy. Away from the major fault zones, fractures mainly consist of stratabound and non-stratabound joints and sheared joints, which form two main bed-perpendicular cross-orthogonal sets. Both sets are characterized by a Poissonian spacing distribution, they do not form well-defined clusters, and formed during either burial diagenesis or subsequent Upper Miocene foreland flexure of the Inner Apulian Platform. In contrast, the study fault damage zone is mainly crosscut by non-stratabound fractures and through-going slip surfaces, which form clustered conjugate systems characterized by power law spacing distributions. Results of Discrete Fracture Network modelling of geocellular volumes representative of the surveyed outcrops show that the fractured carbonates of the study fault damage zone form the main storage volume for underground fluids. There, non-stratabound fractures act as the main control on fracture porosity and contribute towards determining isotropic horizontal fluid flow properties. These isotropic conditions are interpreted as a factor of the profound control exerted by the pre-existing cross-orthogonal fracture sets, which underwent to an extreme uplift during the Plio-Quaternary tectonic evolution of the area. Data presented in this work also highlight the importance of scan area methods for the quantitative analysis of stratabound fracture sets.

Published
2019
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3. Structural diagenesis of shallow platform carbonates: Role of early embrittlement on fracture setting and distribution, case study of Monte Alpi (Southern Apennines, Italy)

Author

Andrea Rustichelli, Fabrizio Agosta, Roland Salardon, Vincenzo La Bruna, Alessandro Giuffrida, Lionel Marié, Juliette Lamarche, Centre européen de recherche et d'enseignement des géosciences de l'environnement (CEREGE), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Collège de France (CdF (institution))-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Federal University of Rio Grande do Norte, University of Basilicata, University of Camerino, Università degli studi della Basilicata [Potenza] (UNIBAS), and Università degli Studi di Camerino = University of Camerino (UNICAM)

Subjects
010504 meteorology & atmospheric sciences, Geochemistry, Carbonates, [SDU.STU]Sciences of the Universe [physics]/Earth Sciences, Geology, 010502 geochemistry & geophysics, Cementation (geology), 01 natural sciences, Cretaceous, Diagenesis, Petrography, Tectonics, Deformation mechanism, Reservoirs, Carbonate rock, Early cementation, Southern apennines, Lithification, Fractures, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences
Abstract

International audience; Bed-perpendicular, opening-mode diffuse fractures are common features in carbonate rocks because they become brittle during the first stages of diagenesis. Early-fractures could be independent of tectonics and form a background structural network from sub-millimeter to 10's of centimetres scale. This study focuses on the outcrop-to-micro scales structural, stratigraphic, and petrographic characterization of Lower Cretaceous, shallow-water, tight limestones of the Inner Apulian Platform exposed along the axial sector of the southern Apennines fold-and-thrust belt, Italy. This work aims at understanding the formation of early diagenetic fractures during the first stages of sediment lithification, and on their impact on subsequent deformation mechanisms associated to polyphase tectonics. The results of field structural surveys, of petrographic and cathodoluminescence analyses of representative samples unravel the main structural-diagenetic processes in shallow-water carbonates. We document that early brittle fractures were intrinsically related to the host rock pore type and cementation processes, and summarize the overall time-dependant evolution of the structural assemblages in a conceptual model. This model includes all abutting and crosscutting relationships among the various structural elements from field to thin-section observation, and form the now days fracture network.

Published
2020
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4. Fracture characteristics in Cretaceous platform and overlying ramp carbonates: An outcrop study from Maiella Mountain (central Italy)

Author

Fabrizio Balsamo, Stefano Torrieri, Salvatore Laurita, Andrea Rustichelli, Christoph Strauss, Emanuele Tondi, and Fabrizio Agosta

Subjects
geography, geography.geographical_feature_category, Outcrop, 020209 energy, Stratigraphy, Flow (psychology), Geology, 02 engineering and technology, Fault (geology), 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Cretaceous, Matrix (geology), Geophysics, 0202 electrical engineering, electronic engineering, information engineering, Fracture (geology), Economic Geology, Petrology, Normal fault, Geomorphology, 0105 earth and related environmental sciences
Abstract

This article focuses on field- and laboratory-based characterization of vertically persistent fractures that are part of oblique-slip normal fault zones and crosscut the Cretaceous platform and overlaying ramp carbonates outcropping at Maiella Mountain (central Italy). The achieved results show that: (i) fault damage zones are wider and more densely fractured in the platform carbonates than in the ramp ones; (ii) joints and sheared joints composing the fault damage zones are taller, better connected and less spaced within the former rocks than in the ramp carbonates. The aforementioned structural differences are interpreted to be a consequence of the different mechanical properties of the platform and ramp carbonates during failure. At Maiella Mountain, platform carbonates are, indeed, made up of overall stiffer (higher Uniaxial Compressive Strength values) and less porous rocks, due to more abundant intergranular void-filling cement and presence of matrix. In terms of hydrocarbon flow and recovery, geometric and dimensional attributes of fractures suggest that the well-connected network of closely spaced fractures cutting across the platform carbonates may form efficient pathways for both vertical and horizontal hydrocarbon flow. In contrast, the relatively poorly connected and low-density fracture network affecting the ramp carbonates is likely less efficient in providing fairways for flowing hydrocarbons.

Published
2016
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5. Structural and sedimentary discontinuities control the generation of karst dissolution cavities in a carbonate sequence, Potiguar Basin, Brazil

Author

Philippe Audra, Renata E.B. Araujo, José Antonio Barbosa, Andrea Rustichelli, Vincenzo La Bruna, Milton Moraes Xavier, Francisco H.R. Bezerra, and Antonio Celso Dantas Antonino

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Stratigraphy, Geology, 010502 geochemistry & geophysics, Oceanography, Karst, 01 natural sciences, Permeability (earth sciences), chemistry.chemical_compound, Geophysics, Schmidt hammer, chemistry, Stylolite, Meteoric water, Carbonate rock, Carbonate, Economic Geology, Sedimentary rock, Petrology, 0105 earth and related environmental sciences
Abstract

Epigenetic karstic systems in carbonate rocks commonly result from progressive dissolution by acidic meteoric waters over thousands to millions of years. The generation of secondary porosity and permeability improvement due to dissolution in carbonate reservoirs of geofluids (e.g., groundwater, hydrocarbons, and CO2) can profoundly impact reservoir storage capacity and subsurface fluid flow. This study investigates the control of structural discontinuities such as stylolites, fractures, and primary sedimentary discontinuities on the generation of multiscale karst dissolution cavities by epigenetic fluid percolation in a Late Cretaceous carbonate sequence (Jandaira Formation) in the Potiguar Basin, Northeastern Brazil. The study relies on micro- and macroscale analyses such as stratigraphic logs, field structural investigations, rock strength data collected in the field (Schmidt hammer), microtomographic and drone images, thin section analyses, porosity and permeability laboratory measurements. The results show that bed-perpendicular stratabound and non-stratabound stylolites and fractures can be enlarged due to meteoric water percolation until they merge and form a single channel system that crosscuts all sedimentary multilayers. Bed-parallel stylolites are ubiquitous in carbonate sequences overprinting bed interfaces and layers. Where not dissolved, bed-parallel stylolites have low porosity and permeability and thus can act as barriers to vertical fluid flow. Where dissolved, such stylolites can contribute to horizontal fluid flow and form channel porosity. The results of this study led to a formulation of a conceptual model of rock dissolution along structural and sedimentary discontinuities that affects carbonate rock successions in the subsurface.

Published
2021
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6. Fracture Stratigraphy and DFN Modelling of Tight Carbonates, the Case Study of Monte Alpi (Southern Italy)

Author

M. Eriksson, Alessandro Giuffrida, Andrea Rustichelli, Elisa Panza, Paola Castelluccio, Stefano Torrieri, V. La Bruna, Maurizio Giorgioni, Fabrizio Agosta, and Emanuele Tondi

Subjects
Regional geology, geography, Tectonics, geography.geographical_feature_category, Stratigraphy, Engineering geology, Fracture (geology), Massif, Economic geology, Petrology, Geology, Geobiology
Abstract

Recent geological and structural analyses of the Monte Alpi carbonate massif focused on the dimensional properties and growth mechanisms of large-scale, high-angle fault zones. In this work, we focus on the role played by primary heterogeneities on the vertical growth of high-angle structural elements such as joints, sheared joints, persistent fracture zones, and small faults. By combining traditional field structural analyses with 3D photogrammetric analysis, we are able to document the attitude and height distribution of individual structural elements. Data are statistically elaborated in order to assess their multi-scale dimensional properties, which are discussed in light of the abutting and crosscutting relationships with respect to the primary heterogeneities. Results of this work fill the gap that exists between the in situ and seismic resolution analyses, and provide new insights into the mechanical stratigraphy of tight, platform-related carbonates of the Inner Apulian Platform.

Published
2019
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7. Meso-to-microscale fracture porosity in tight limestones, results of an integrated field and laboratory study

Author

Elisa Panza, Audrey Ougier-Simonin, Andrea Rustichelli, Marcus R. Dobbs, Giacomo Prosser, Sergio Vinciguerra, and Fabrizio Agosta

Subjects
010504 meteorology & atmospheric sciences, Stratigraphy, Petrophysics, Mesoscale meteorology, Mineralogy, Geology, Percolation threshold, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Matrix (geology), Geophysics, Percolation, Fracture (geology), Economic Geology, Porosity, Microscale chemistry, 0105 earth and related environmental sciences
Abstract

The complex fluid saturation distribution and influence of microscale and mesoscale fractures on the fluid accumulation and flow properties of carbonates are still interesting challenges for petroleum geologists. For this reason, in order to know the relative role played by the aforementioned features on the storage and migration properties of tight limestones, the present work focuses on a surface analogue cropping out in southern Italy. By first applying a deterministic Discrete Fracture Network (DFN) modelling to a 1 m3 geocellular volume, an amount of 0.3% of fracture porosity and a fracture connectivity configuration above the percolation threshold are computed. In addition to mesoscale fracture porosity, in order to gather information on matrix porosity and microscale fractures, we investigate the pore type, geometry, and textural anisotropy of selected rock plugs by mean of integrated petrophysical, ultrasonic, and optical microscopy analyses experiments. Results show values of connected porosity ranging between 1% and 6%, presence of vugs localized along pre-existing structural heterogeneities, and the predominance of stiff pores within the carbonate matrix. The rare microfractures are mainly oriented orthogonal to bedding. The estimated crack density (0.19) shows that the contribution of fracture porosity at microscale (ɸ = 0.078%) is very low if compared to that of matrix porosity and also a structural configuration above the percolation. The present study therefore documents that the carbonate matrix forms an isotropic medium, which profoundly affects the storage capability of the study limestones. In fact, the amount of storage provided by carbonate matrix and microscale fractures is greater than that due to mesoscale fractures. Moreover, we document that the matrix contribution on porosity is much more significant than the contribution provided by microfractures. Finally, the present work shows the importance of integrating different methodologies on the assessment of fracture porosity at different scales of observation. In fact, a great benefit for development and production operations can be obtained by performing studies of surface analogs, which allow the detailed investigation of rock masses below seismic resolution.

Published
2019

8. From fracture analysis to flow simulations in fractured carbonates: The case study of the Roman Valley Quarry (Majella Mountain, Italy)

Author

S. Vittori, Tiziano Volatili, Maurizio Giorgioni, Andrea Rustichelli, Antonino Cilona, Miller Zambrano, B.A.H. Huisman, and Emanuele Tondi

Subjects
geography, geography.geographical_feature_category, Discrete fracture, 010504 meteorology & atmospheric sciences, Stratigraphy, Geology, Characterisation of pore space in soil, Fault (geology), 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, chemistry.chemical_compound, Permeability (earth sciences), Geophysics, chemistry, Breccia, Fluid dynamics, Carbonate, Economic Geology, Petrology, 0105 earth and related environmental sciences
Abstract

This work assesses the impact of the stratigraphic and structural heterogeneities on the fluid distribution and migration within a deformed carbonate reservoir analogue. The study was carried out in the abandoned Roman Valley quarry (Majella Mountain, central Italy), well-known for its historical bitumen extraction. The studied rocks consist of ramp carbonates of the lower member of the Bolognano Formation (Oligocene-Miocene in age) mainly composed of grainstones, and secondary packstones and wackestones. In the quarry, the exposed rocks are crosscut by two high-angle oblique-slip faults striking WNW-ESE with up to 40 m of throw. With the aim of deciphering the contribution of both matrix and fracture pore space on the fluid storage and migration, both laboratory measurements and field-based Discrete Fracture Network (DFN) models (cubes with 4-m per side) have been carried out. The obtained dual-porosity/permeability model, which includes the lithological and the structural heterogeneities observed at the location, was used to run flow simulations under different scenarios of well locations. The fluid distribution in the matrix, resulting from these flow simulations, is consistent with field observations where bitumen localizes within the most permeable lithofacies (grainstones). In the fault zones, the fracture network causes an important fluid flow anisotropy, enhancing the flow in a direction subparallel to the faults. The flow orthogonal to the fault zones is controlled by type and lateral continuity of fault rocks, where fault breccias represent conduits and cataclasites localized barriers.

Published
2019

9. Shearing of syn-sedimentary carbonate breccia along strike-slip faults, Altamura Fm., Southern Italy

Author

Fabrizio Agosta, Salvatore Laurita, Francesco Cavalcante, Andrea Rustichelli, and Maurizio Giorgioni

Subjects
Shearing (physics), Calcite, Murge Plateau, Geochemistry, Geology, gravitative breccia, syn-sedimentary deformation, Strike-slip tectonics, chemistry.chemical_compound, Fault breccia, fault breccia, chemistry, Deformation mechanism, Breccia, General Earth and Planetary Sciences, Carbonate, Altamura Fm, Sedimentary rock
Abstract

Fault breccia present along strike-slip faults was studied by mean of an integrated field and laboratory investigation. In particular, samples of sheared pre-existing, syn-sedimentary gravitative breccia were detailed studied in order to decipher the deformation mechanisms associated to strike-slip faulting. The sheared gravitative breccia is made up of matrix-supported, monomictic, unsorted intraformational fragments embedded within a reddish hematite rich, clayish matrix. Microsparry calcite cement is also present around the limestone fragments. In contrast, tectonic breccia consists of comminuted limestone fragments embedded in a calcite-rich matrix also including small amounts of reddish matrix. Particle shape analysis of representative images of the study hand specimens shows a variability of the box-counting dimension (D-0-value) between the two different types of breccias, which can be explained in terms of peculiar strain localization within a threefold aggregate that characterizes the gravitative breccia, which is made up of calcite fragments, clayish matrix and very minute oxides.

Published
2016
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10. Deformation within the Pisco Basin sedimentary record (southern Peru): Stratabound orthogonal vein sets and their impact on fault development

Author

Andrea Rustichelli, Claudio Di Celma, Emanuele Tondi, and Giovanni Bianucci

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Fault, Forearc basin, Gypsum vein, Ica Desert, Transtensional, Outcrop, Tectonic phase, Geology, Deformation (meteorology), Fault (geology), Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Plate tectonics, Sedimentary rock, Forearc, Seismology, 0105 earth and related environmental sciences, Earth-Surface Processes
Abstract

This outcrop-based study reports diffuse joints and veins, normal to strike-slip fault zones and minor folds that developed, from Miocene to Quaternary, within the clastic to siliceous sedimentary record of the forearc Pisco Basin of southern Peru. Patterns, orientations, dimensional parameters and other outcrop-scale characteristics of the various deformation features are illustrated and their genetic mechanisms and timing of development are inferred. These new structural data and interpretations allow a better constraint of the structural style and evolution of the Pisco Basin, and can represent useful guidelines for characterizing the outcrop-scale deformation affecting similar forearc basins along the Peruvian coast. Major results of this study are that the development of the documented deformation features, their patterns, dimensional parameters and kinematics seem influenced by local perturbations of the paleostress field by mechanic processes partly independent of plate tectonics forces. These processes include strain localization on both pre-existing and progressively forming new structural discontinuities, and cyclic switches of the horizontal, principal stress axes σ2 and σ3. In particular, we discuss how different normal fault patterns, from sub-parallel to multidirectional/polygonal, could form in a same deformation phase in response of the local σ2/σ3 magnitude ratio, as an evolution of stratabound, mutually orthogonal vein sets.

Published
2016
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11. Large-scale stratigraphic architecture and sequence analysis of an early Pleistocene submarine canyon fill, Monte Ascensione succession (Peri-Adriatic basin, eastern central Italy)

Author

Riccardo Teloni, Andrea Rustichelli, and Claudio Di Celma

Subjects
Canyon, Sedimentary depositional environment, geography, Paleontology, geography.geographical_feature_category, Turbidity current, Clastic rock, General Earth and Planetary Sciences, Submarine canyon, Sedimentary rock, Sedimentology, Sediment transport, Geology
Abstract

The Monte Ascensione succession (c. 2.65–2.1 Ma) is a well-exposed example of an exhumed submarine canyon fill embedded within slope hemipelagic mudstones. This gorge represented a long-lasting pathway for sediment transport and deposition and during the Gelasian delivered Apennine-derived clastic sediment to the adjacent Peri-Adriatic basin. A total of six principal lithofacies types, representing both canyon-confining hemipelagic deposits and canyon-filling turbidity current and mass-transport deposits, can be delineated in the studied sedimentary succession. The canyon-fill deposits display a marked cyclic character and the component lithofacies succeed one another to form at least fifteen fining-upward stratal units, which are interpreted to represent high-frequency, unconformity-bounded depositional sequences. Variability in the vertical repetition of constituent lithofacies allows the identification of three basic styles of sequence architecture that can be interpreted in terms of differing positions along a conceptual down-canyon depositional profile. An integrated chronology, based on biostratigraphic data and on palaeomagnetic polarity measurements, strongly supports a one-to-one correlation between the sequence-bounding surfaces and oxygen isotope stages G2–78, suggesting that the most feasible sequence-engendering mechanism is that of orbitally dictated glacio-eustatic changes in sea level, which regulated timing of sediment storage on the shelf and its redistribution beyond the shelf edge. One of the most significant aspects of this study is the demonstration that processes occurring within upper slope canyons can be expected to be strongly influenced by variations in sea level; that is, the erosional and depositional features evident in these deposits can be strongly controlled by allocyclic processes rather than autocyclic or random processes.

Published
2013
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12. Fault-controlled dolomite bodies as palaeotectonic indicators and geofluid reservoirs: New insights from Gargano Promontory outcrops

Author

Mariano Parente, Alessandro Iannace, Emanuele Tondi, Claudio Di Celma, Monica Girundo, Maurizio Giorgioni, Chiara Invernizzi, Andrea Rustichelli, Antonino Cilona, Rustichelli, Andrea, Iannace, Alessandro, Tondi, Emanuele, Celma, Claudio Di, Cilona, Antonino, Giorgioni, Maurizio, Parente, Mariano, Girundo, Monica, and Invernizzi, Chiara

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Outcrop, Carbonate reservoir, Cretaceous tectonics, dolomitization, fault, Maiolica Formation, porosity, Gargano, Italy, Puglia, Stratigraphy, Dolomite, Geology, Fault (geology), 010502 geochemistry & geophysics, 01 natural sciences, Cretaceous, Petrography, Paleontology, chemistry.chemical_compound, Tectonics, chemistry, Dolomitization, Carbonate, 0105 earth and related environmental sciences
Abstract

The Upper Jurassic to Lower Cretaceous platform-slope to basinal carbonate strata cropping out in Gargano Promontory (southern Italy) are partly dolomitized. Fieldwork and laboratory analyses (petrographic, petrophysical and geochemical) allowed the characterization of the dolomite bodies with respect to their distribution within the carbonate succession, their dimensions, geometries, textural variability, chemical stability, age, porosity, genetic mechanisms and relation with tectonics. The dolomite bodies range from metres to kilometres in size, are fault-related and fracture-related, and probably formed during the Early Cretaceous at

Published
2017

14. Spacing and distribution of bed-perpendicular joints throughout layered, shallow-marine carbonates (Granada Basin, southern Spain)

Author

Fabrizio Agosta, Vincenzo Spina, Andrea Rustichelli, and Emanuele Tondi

Subjects
Calcite, Mineralogy, Cementation (geology), Grain size, Diagenesis, Petrography, chemistry.chemical_compound, Geophysics, chemistry, Grainstone, Carbonate, Porosity, Geology, Earth-Surface Processes
Abstract

This contribution focuses on the controls exerted by sedimentological, petrographic and mechanical rock properties on the distribution of bed-perpendicular joints throughout layered carbonates. The study was conducted on Tortonian, shallow-marine skeletal grainstones and rudstones cropping out in the Granada Basin, southern Spain. The results of combined field and laboratory analyses are consistent with the rock grain size of the studied carbonates exerting a key control on distribution of the bed-perpendicular joints. A positive correlation between joint spacing and mechanical unit thickness is computed for the grainstones, whereas joints are almost absent in rudstones. The rock grain size affected the diagenetic processes, such as cementation and dissolution, and therefore the resulting porosity and uniaxial compressive strength (UCS) values. Quantitative data show that higher UCS values are commonly associated with greater calcite amounts, lower values of porosity and finer grain sizes and, hence, denser bed-perpendicular joint sets. In conclusion, this study documents that it is possible to infer the density of bed-perpendicular joints in layered carbonates based on the sedimentological, petrographic and mechanical parameters. Considering the impact that this type of joints has on subsurface fluid flow, the acquired knowledge can help the management of geofluids as well as the overall prediction of carbonate reservoir quality.

Published
2013
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15. Fibrous gypsum veins as diffuse features and within fault zones: the case study of the Pisco Basin (Ica desert, southern Peru)

Author

Emanuele Tondi, Sergio Vinciguerra, Patrick Baud, Andrea Rustichelli, Claudio Di Celma, Institut de physique du globe de Strasbourg (IPGS), Université de Strasbourg (UNISTRA)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS), Department of Geology [Leicester], and University of Leicester

Subjects
Gypsum, 010504 meteorology & atmospheric sciences, [SDU.STU.GP]Sciences of the Universe [physics]/Earth Sciences/Geophysics [physics.geo-ph], Geochemistry, Mineralogy, Geology, Weathering, Structural basin, engineering.material, 010502 geochemistry & geophysics, Neogene, 01 natural sciences, cardiovascular system, engineering, Sedimentary rock, Parent rock, Vein (geology), Quaternary, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences
Abstract

New knowledge on patterns of fibrous gypsum veins, their genetic mechanisms, deformation style and weathering is provided by a field- and laboratory-based study carried out on the Neogene to Quaternary Pisco Basin sedimentary strata exposed in the Ica desert, southern Peru. Gypsum veins vary considerably in dimensions, attitudes and timing, and can develop in layered and moderately fractured rocks also in the absence of evaporitic layers. Veins occur both as diffuse features, confined to certain stratigraphic levels, and localized within fault zones. Arrays formed by layer-bounded, mutually orthogonal sets of steeply dipping gypsum veins are reported for the first time. Vein length, height and spacing depend on the thickness of the bed packages in which they are confined. Within fault zones, veins are partly a product of faulting but are also inherited layer-bounded features along which faults are superimposed. Owing to the different petrophysical properties with respect to the parent rocks and their susceptibility to textural and mineralogical modifications, water dissolution and rupture, gypsum veins may have a significant role in geofluid management. Depending on their patterns and grade of physical and chemical alteration, veins may influence geofluid circulation and storage, acting as barriers to flow and possibly also as conduits.

Published
2016
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16. Growth processes, dimensional parameters and scaling relationships of two conjugate sets of compactive shear bands in porous carbonate grainstones, Favignana Island, Italy

Author

Emanuele Tondi, Pietro Renda, Andrea Rustichelli, Atilla Aydin, Giuseppe Giunta, Fabrizio Agosta, Antonino Cilona, Tondi, E, Cilona, A, Agosta, F, Aydin, A, Rustichelli, A, Renda, P, and Giunta, G

Subjects
geography, geography.geographical_feature_category, Bedding, Settore GEO/03 - Geologia Strutturale, Compaction, Mineralogy, Geology, Slip (materials science), Fault (geology), chemistry.chemical_compound, Shear (geology), chemistry, Grainstone, offshore Sicily, Favignana, Pleistocene deposits,compaction bands, deformation bands, fault scaling, Carbonate, Deformation bands, Seismology
Abstract

Three main sets of deformation bands are identified in the Lower Pleistocene carbonate grainstones of Favignana Island (Italy). A bedding-parallel set is interpreted to contain compaction bands, based on the lack of evidence for shear. The other two sets are oriented at a high-angle to bedding, forming a conjugate pair comprised of compactive strike-slip shear bands. In this study, we focus on the compactive shear bands documenting their development, as well as analyzing their dimensional parameters and scaling relationships. Single compactive shear bands are thin, tabular zones with porosity less than the surrounding host rocks, and have thicknesses and displacements on the order of a few mm. The growth process for these structures involves localizing further deformation within zones of closely-spaced compactive shear bands and, possibly, along continuous slip surfaces within fault rocks overprinting older zones of bands. During growth, single bands, zones of bands and faults can interact and link, producing larger structures. The transitions from one growth step to another, which are controlled by changes in the deformation behavior (i.e. banding vs. faulting), are recorded by different values of the dimensional parameters for the structures (i.e. length, thickness and displacement). These transitions are also reflected by the ratios and distributions of the dimensional parameters. Considering the lesser porosity values of the structures with respect to the host rock, the results of this contribution could be helpful for mapping, assessing, and simulating carbonate grainstone reservoirs with similar structures.

Published
2012
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17. Hydraulic properties of fault zones in porous carbonates, examples from central and southern Italy

Author

Maurizio Giorgioni, Fabrizio Agosta, Giuseppe Napoli, Andrea Rustichelli, Antonino Cilona, Fabrizio Storti, Fabrizio Balsamo, Emanuele Tondi, Pietro Renda, Tondi, E., Rustichelli, A., Cilona, A., Balsamo,F., Storti, F., Napoli, G., Agosta, F., Renda, P., and Giorgioni, M.

Subjects
geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Geology, Cataclastic rock, Fault (geology), 010502 geochemistry & geophysics, 01 natural sciences, Cretaceous, Permeability (earth sciences), chemistry.chemical_compound, Shear (geology), chemistry, General Earth and Planetary Sciences, Carbonate, permeability, sub-seismic resolution faults, compactive shear banding, Favignana Island, Majella Mountain, Petrology, Porosity, Geomorphology, 0105 earth and related environmental sciences, Permeameter
Abstract

We present the results of in situ permeability measurements performed, using a portable field permeameter, on normal and strike-slip fault zones that crosscut high-porosity carbonate grainstones. The measurement sites expose in the Cretaceous Orfento Formation of the Majella Mountain (Abruzzo, Italy), and the Lower Pleistocene deposits of the Favignana Island (Sicily, Italy). Nine small-displacement, compactive shear banding-based fault zones have been tested in the field. The fault offset ranges between 10 and 200 centimeters. The acquired permeability data indicate a two orders of magnitude decrease of porosity and permeability from the host rock to the cataclastic fault cores. A clear dependence of the fluid circulation paths through porous carbonates is therefore inferred at depth due to orientation, density and connectivity of the fault zones. Moreover, this study indicates the key role played by the pore network characteristics (pore dimensions above all) of undeformed host rocks on determining extremely different permeability values of the faulted porous carbonate grainstones. Accordingly, the results presented in this study may be helpful in applications such as geofluids management for improving the forecasting of carbonate reservoir quality and understanding the extent of reservoir compartmentalization.

Published
2016

19. Fracture stratigraphy and fluid flow properties of shallow-water, tight carbonates: The case study of the Murge Plateau (southern Italy)

Author

Andrea Rustichelli, Fabrizio Agosta, Emanuele Tondi, J. M. Janiseck, Miller Zambrano, Giacomo Prosser, Elisa Panza, and Maurizio Giorgioni

Subjects
010504 meteorology & atmospheric sciences, Outcrop, Stratigraphy, Mineralogy, Geology, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Waves and shallow water, Permeability (earth sciences), chemistry.chemical_compound, Geophysics, chemistry, Breccia, Fluid dynamics, Carbonate, Economic Geology, Sedimentary rock, Petrology, Porosity, 0105 earth and related environmental sciences
Abstract

The work tackles the control exerted by a sub-seismic fracture network on both secondary porosity and correspondent permeability of outcropping tight carbonates. Taking advantage of excellent 3D exposures, located in the Murge Plateau of southern Italy, the fracture network is investigated at different scales of observation. The rock multi-layer is made up of 10's of cm-thick, sub-horizontal, laterally continuous limestone beds crosscut by stratabound fractures, non-stratabound fractures, and small faults named as persistent fracture zones with low amounts of offset. Stratabound fractures consist of bed-perpendicular joints and sheared joints, non-stratabound fractures of incipient, cm-offset, sub-vertical faults, whereas the 10's of cm-offset persistent fracture zones are made up of 10's of m-high, m-thick fractured damage zones. The aforementioned structural elements localize within discrete carbonate units bounded by primary features such as bed surfaces, prominent surfaces and sedimentary breccia horizons. Such interfaces therefore affected the fracture stratigraphy of the limestone rock, and thus impact the fluid flow properties of the carbonate multilayer by compartmentalizing deformation. In the field, the fracture network is investigated by means of scanline and scan area methodologies to document the orientation, intensity, height distribution, mechanical aperture and roughness of individual fractures exposed along vertical outcrops and pavements of abandoned quarries. Then, Discrete Fracture Network (DFN) models of representative geocellular volumes are built, according to the different scales of analysis, to compute both fracture porosity and correspondent permeability (K xx , K yy , K zz ). Results of such a work show that the most prominent non-stratabound fracture set forms the major control on fluid storage and migration at the scales of single beds and bed-packages. At a larger scale, we document that fluid migration mainly occurs along the persistent fracture zones, which enhance the fault-parallel flow. As a whole, the persistent fracture zones form localized fluid conduits embedded within carbonate matrices that show isotropic fluid flow properties.

Published
2016

20. Stratigraphic framework of the late Miocene to Pliocene Pisco Formation at Cerro Colorado (Ica Desert, Peru)

Author

Anna Gioncada, Karen Gariboldi, Pietro Paolo Pierantoni, Walter Landini, Elisa Malinverno, Chiara Tinelli, Andrea Rustichelli, C. Di Celma, Giovanni Bianucci, Giulia Bosio, Di Celma, C, Malinverno, E, Gariboldi, K, Gioncada, A, Rustichelli, A, Pierantoni, P, Landini, W, Bosio, G, Tinelli, C, and Bianucci, G

Subjects
010506 paleontology, geography, geography.geographical_feature_category, Cerro Colorado, Pisco Formation, Fauna, Geography, Planning and Development, Late Miocene, Fault (geology), late Miocene, 010502 geochemistry & geophysics, Geologic map, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 01 natural sciences, Unconformity, Paleontology, Section (archaeology), Earth and Planetary Sciences (miscellaneous), Submarine pipeline, GEO/02 - GEOLOGIA STRATIGRAFICA E SEDIMENTOLOGICA, Geology, 0105 earth and related environmental sciences
Abstract

This paper describes a ∼200 m-thick section of the Pisco Formation exposed at Cerro Colorado, an important fossiliferous site in the Ica desert. In order to properly place the fauna in its correct relative position, this study establishes the stratigraphic framework within which the different fossil-bearing intervals of this site can be compared and may prove invaluable in future high-resolution studies on the faunal change. Most of the Pisco Formation deposits exposed at Cerro Colorado consist of gently dipping fine-grained sandstones, diatomaceous siltstones and diatomites with minor ash layers and dolomites deposited within nearshore and offshore settings. To facilitate detailed stratigraphic correlations within the Pisco strata for a 30 km2 area, eight marker beds have been defined and large-scale (1:10,000 scale) geological mapping conducted to determine fault positions, styles and offsets. The geological map shows that there are two important angular unconformities in the study area. The first one is the interformational basal unconformity of the Pisco Formation against folded, faulted, and planated Oligo-Miocene rocks of the Chilcatay Formation. The second is a low-angle intraformational erosional discontinuity of up to 4° angular discordance that allows the subdivision of the Pisco stratigraphy exposed in the study area into two informal allomembers. Dating of the exposed succession by diatom biostratigraphy suggests that the age of the lower allomember is late Miocene, whereas the upper allomember is late Miocene or younger.

Published
2016

21. Stratigraphic framework of the late Miocene Pisco Formation at Cerro Los Quesos (Ica Desert, Peru)

Author

Pietro Paolo Pierantoni, Walter Landini, Alberto Collareta, Karen Gariboldi, Chiara Tinelli, Gino Cantalamessa, Elisa Malinverno, Giulia Bosio, Andrea Rustichelli, Igor M. Villa, C. Di Celma, Anna Gioncada, Giovanni Bianucci, Di Celma, C, Malinverno, E, Cantalamessa, G, Gioncada, A, Bosio, G, Villa, I, Gariboldi, K, Rustichelli, A, Pierantoni, P, Landini, W, Tinelli, C, Collareta, A, and Bianucci, G

Subjects
010506 paleontology, Outcrop, Ar isotopic dating, Geography, Planning and Development, Biostratigraphy, Late Miocene, late Miocene, 010502 geochemistry & geophysics, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 01 natural sciences, Paleontology, Pisco formation, 40Ar/39Ar isotopic dating, Cerro Los Quesos, diatom biostratigraphy, stratigraphy, Earth and Planetary Sciences (miscellaneous), Pisco Formation, GEO/02 - GEOLOGIA STRATIGRAFICA E SEDIMENTOLOGICA, Chronostratigraphy, 0105 earth and related environmental sciences, Planning and Development, Cerro Los Queso, Geography, Geologic map, Ar, Stratigraphy, Radiometric dating, Geology
Abstract

The enormous concentration of marine vertebrates documented within the Pisco Formation is unique for Peru and South America and places this unit among the prime fossil Lagerstätten for Miocene to Pliocene marine mammals worldwide. In order to provide a robust stratigraphic framework for the fossil-bearing locality of Cerro Los Quesos, this study presents a 1:10,000 scale geological map covering an area of about 21 km2, a detailed measured section spanning 290 m of strata, and a refined chronostratigraphy for the studied succession well constrained by diatom biostratigraphy and high-resolution 40Ar/39Ar isotopic dating of three interbedded ash layers. Within the apparently monotonous, diatomite-dominated sedimentary section, the Pisco Formation has been subdivided into six local members, with stratigraphic control over the different outcrops facilitated by the establishment of a detailed marker bed stratigraphy based on 15 readily distinguishable sediment layers of different nature.

Published
2016

22. Geology and sedimentary facies of the Pliocene succession of the Baronia Mountains (Ariano Basin, southern Italy)

Author

Emanuele Tondi, Claudio Di Celma, and Andrea Rustichelli

Subjects
010504 meteorology & atmospheric sciences, Geography, Planning and Development, Fluvial, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Sedimentary depositional environment, Paleontology, Sequence (geology), Clastic rock, Facies, Earth and Planetary Sciences (miscellaneous), Sequence stratigraphy, Transgressive, Geology, 0105 earth and related environmental sciences
Abstract

An up to 1500 m-thick clastic succession, the late Zanclean Baronia Synthem, has been analysed in detail in the Ariano wedge-top Basin (southern Apennine, Italy). In the Baronia Mountains the studied sediments are well exposed and laterally mappable due to young uplift and exhumation and rest unconformably on a complexly deformed pre-Pliocene substratum formed by Triassic to Miocene allochthonous units. The Baronia Synthem has been resolved into seven facies associations that are representative of distinct fluvial, deltaic, nearshore and offshore depositional environments and can be grouped into lowstand, transgressive, and highstand systems tracts. Using an integrated approach comprising original geological field mapping at 1:10,000 scale, conventional sedimentary facies analysis and a sequence stratigraphic approach, this paper provides a detailed description and interpretation of facies associations and new insights on the stratigraphic architecture and the geological history of this portion of the basin fill.

Published
2016
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23. Bedding-parallel stylolites in shallow-water limestone successions of the Apulian Carbonate Platform (central-southern Italy)

Author

Thierry Reuschlé, Sergio Vinciguerra, Irina Korneva, Emanuele Tondi, Fabrizio Agosta, J. M. Janiseck, Andrea Rustichelli, Patrick Baud, Institut de physique du globe de Strasbourg (IPGS), and Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)

Subjects
Bedding, Carbonate platform, Geology, [PHYS.PHYS.PHYS-GEO-PH]Physics [physics]/Physics [physics]/Geophysics [physics.geo-ph], Cretaceous, Waves and shallow water, Paleontology, chemistry.chemical_compound, chemistry, Stylolite, General Earth and Planetary Sciences, Carbonate rock, Carbonate, Pressure solution, ComputingMilieux_MISCELLANEOUS
Abstract

Bedding-parallel stylolites typically represent the product of chemical compaction (overburden weight-induced pressure solution) experienced by carbonate successions during their burial history, when bedding is still horizontal. Due to their common occurrence in carbonate rocks, with lateral extents that can exceed 1 km, bedding-parallel stylolites are of special interest for the hydrocarbon industry because they may affect the regional fluid flow in the subsurface. Aimed at assessing the development and distribution of bedding-parallel stylolites in shallow-water, platform limestone successions, field and laboratory studies were carried out on Cretaceous limestones originally pertaining to the Apulian Carbonate Platform realm and now exposed in three distinct Italian locations: Maiella Mountain, Gargano Promontory and Murge Plateau. Results point to a prominent role played by the geological characteristics of limestones on development and localization of bedding-parallel stylolites within shallow-water, platform limestone successions. In particular, bedding-parallel lamination and fine rock grain size, co-occurring in stromatolitic limestones, determined there laterally more extensive and closely spaced stylolites than in the associated calcilutites and calcarenites. Large fenestral pores, which are ubiquitous in stromatolitic limestones, represent rock heterogeneities able to influence the roughness of individual stylolites. Laboratory measurements revealed that the permeability of the studied Cretaceous limestones is very low (

Published
2015
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24. Dolomitization impact on fracture density in pelagic carbonates: contrasting case studies from the Gargano Promontory and the Southern Apennines (Italy)

Author

Alessandro Iannace, Monica Girundo, Andrea Rustichelli, Girando, M., and Rustichelli, Andrea

Subjects
geography, Promontory, geography.geographical_feature_category, Outcrop, Fracture (mineralogy), carbonate rocks dolostone Apennines Mesozoic Gargano micrite Europe Maiolica Limestone petroleum Italy sedimentation Apulia Italy Southern Apennines fractures limestone sedimentary rocks Southern Europe structural analysis, Geochemistry, Geology, Texture (geology), Diagenesis, chemistry.chemical_compound, chemistry, Dolomitization, General Earth and Planetary Sciences, Carbonate rock, Carbonate, Geomorphology
Abstract

The results of combined field and laboratory analyses carried out in well bedded, partly dolomitized successions of Mesozoic pelagic carbonates outcropping in the Gargano Promontory and Southern Apennines (Italy), revealed that dolomitization can exert opposite roles in modulating fracture density of carbonate successions. The coarsely crystalline dolomites of the Gargano Promontory, which are characterized by planar-S to planar-E textures and some intercrystalline porosity (3.6–18.4%), are less densely affected by stratabound fractures (mostly joints) than the precursor micritic limestones. In contrast, the finer-crystalline, no porous dolomites outcropping in the Southern Apennines, which are dominated by non-planar-A textures, are more densely fractured than the precursor micritic limestones. Therefore, intrinsic textural parameters of dolomites, such as crystal size, texture and porosity played a prominent role in modulating stratabound fracture density. In addition, dolomites of the Gargano Promontory are thicker bedded than the precursor limestone beds due to their diagenetic homogenization, which is enhanced by absence of strongly stylolitized bed surfaces and marly interlayers. This contributed to reduce the overall density of the stratabound fractures formed later. As density of stratabound fractures is considered a prominent factor affecting the large-scale porosity of carbonate rocks, the results of this study provide new insights on how dolomitization may either increase or reduce the quality of fractured reservoirs of geofluids through its multiple controls on density of such fractures.

Published
2015

26. Structural properties of fractured and faulted Cretaceous platform carbonates, Murge Plateau (southern Italy)

Author

Vincenzo Spina, R. Bitonte, R. Di Cuia, Irina Korneva, Fabrizio Agosta, Emanuele Tondi, and Andrea Rustichelli

Subjects
geography, geography.geographical_feature_category, Stratigraphy, Geology, Fault (geology), Oceanography, Karst, Cementation (geology), Cretaceous, Diagenesis, chemistry.chemical_compound, Geophysics, chemistry, Stylolite, Carbonate, Economic Geology, Petrology, Foreland basin, Seismology
Abstract

The Upper Cretaceous carbonates cropping out in the Murge Plateau are good analogues of the fractured and faulted carbonate oil reservoirs of southern Italy. For this reason, a detailed field analysis focused on structural architecture of fault and fracture networks has been carried out in the Murge Plateau. The well-bedded carbonates exposed there are crosscut by a set of bed-parallel stylolites and two sets of bed-perpendicular cross-orthogonal joints/veins. These structural elements were likely formed under vertical loading during burial diagenesis and flexure of the Apulian foreland of the Southern Apennines fold-and-thrust belt. Bed-parallel stylolites and bed-perpendicular cross-orthogonal joints/veins represent the background deformation that was overprinted by the fault-related localized deformation. The fault sets documented in the study area are arranged in two kinematically-compatible fault networks. The first one is made up of WNW-ESE and NNW-SSE oriented strike-slip faults, right- and left-lateral, respectively, and NW–SE oriented normal faults. The second fault network consists of WNW-ESE oriented left-lateral strike-slip faults, and NE–SW oriented normal faults. First, both architecture and dimensional parameters of the fault and fracture networks have been characterized and computed by means of statistical analysis. Then, the permeability structures associated to the aforementioned networks have been assessed in order to determine the role exerted by fault architecture and dissolution/cementation processes on the fluid storage and migration pathways within the studied platform carbonates. Network 1 faults show a quite variable fluid behavior, in which the fluid flow is strongly affected by inherited structural elements and karst dissolution, whereas network 2 faults show a more uniform, fluid conduit behavior.

Published
2014

27. The effects of rock heterogeneity on compaction localization in porous carbonates

Author

Lucia Mancini, Daniel R. Faulkner, Emanuele Tondi, Andrea Rustichelli, Antonino Cilona, Sergio Vinciguerra, Fabrizio Agosta, Patrick Baud, Geology Division, Università degli Studi di Camerino (UNICAM), SYRMEP Group, Sincrotrone Trieste SCpA, Géophysique expérimentale (IPGS) (IPGS-GE), Institut de physique du globe de Strasbourg (IPGS), Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)-Institut national des sciences de l'Univers (INSU - CNRS), Department of Geology [Leicester], and University of Leicester

Subjects
010504 meteorology & atmospheric sciences, Bedding, [SDU.STU.GP]Sciences of the Universe [physics]/Earth Sciences/Geophysics [physics.geo-ph], Compaction, Mineralogy, Geology, Strain hardening exponent, 010502 geochemistry & geophysics, Overburden pressure, 01 natural sciences, chemistry.chemical_compound, chemistry, Carbonate, Deformation bands, Pressure solution, Crystal twinning, ComputingMilieux_MISCELLANEOUS, 0105 earth and related environmental sciences
Abstract

Recent field-based studies document the presence of bed-parallel compaction bands within the Oligocene-Miocene carbonates of Bolognano Formation exposed at the Majella Mountain of central Italy. These compaction bands are interpreted as burial-related structures, which accommodate volumetric strain by means of grain rotation/sliding, grain crushing, intergranular pressure solution and pore collapse. In order to constrain the pressure conditions at which these compaction bands formed, and investigate the role exerted by rock heterogeneity (grain and pore size and cement amount) on compaction localization, we carried out a suite of triaxial compression experiments, under dry conditions and room temperature on representative host rock samples of the Bolognano Formation. The experiments were performed at confining pressures that are proxy of those experienced by the rock during burial (5–35 MPa). Cylinders were cored out from a sample of the carbonate lithofacies most commonly affected by natural compaction bands. Natural structures were sampled and compared to the laboratory ones. During the experiments, the samples displayed shear-enhanced compaction and strain hardening associated with various patterns of strain localization. The brittle–ductile transition occurred at 12.5 MPa whereas compaction bands nucleated at 25 MPa confining pressure. A positive correlation between confining pressure and the angle formed by the deformation bands and the major principal stress axis was documented. Additional experiments were performed at 25 MPa on specimens cored oblique (parallel and at 45°) to the bedding. Detailed microstructural analyses, performed on pristine and deformed rocks by using optical microscopy, scanning electron microscopy and X-ray computed microtomography techniques, showed that grain crushing and mechanical twinning are the dominant deformation processes in the laboratory structures. Conversely, pressure solution appears to be dominant in the natural compaction bands. Experimental results highlight the strong influence exerted by bedding-parallel rock heterogeneity on both orientation and kinematics of deformation bands in the studied carbonates.

Published
2014
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28. Sedimentologic and diagenetic controls on pore-network characteristics of Oligocene–Miocene ramp carbonates (Majella Mountain, central Italy)

Author

Emanuele Tondi, Andrea Rustichelli, Fabrizio Agosta, Maurizio Giorgioni, and Claudio Di Celma

Subjects
Macropore, biology, Geochemistry, Energy Engineering and Power Technology, Mineralogy, Geology, Cementation (geology), biology.organism_classification, Grain size, Diagenesis, Foraminifera, chemistry.chemical_compound, Fuel Technology, chemistry, Geochemistry and Petrology, Benthic zone, Facies, Earth and Planetary Sciences (miscellaneous), Carbonate
Abstract

This article addresses the controls exerted by sedimentologic and diagenetic factors on the preservation and modification of pore-network characteristics (porosity, pore types, sizes, shapes, and distribution) of carbonates belonging to the Bolognano Formation. This formation, exposed at the Majella Mountain, Italy, is composed of Oligocene–Miocene carbonates deposited in middle- to outer-ramp settings. The carbonates consist of (1) grainstones predominantly composed of either larger benthic foraminifera, especially Lepidocyclina, or bryozoans; (2) grainstones to packstones with abundant echinoid plates and spines; and (3) marly wackestones to mudstones with planktonic foraminifera. The results of this field- and laboratory-based study are consistent with skeletal grain assemblages, grain sizes, sorting, and shapes, all representing the sedimentologic factors responsible for high values of connected primary macroporosity in grainstones deposited on the high-energy, middle to proximal outer ramp. Cementation, responsible for porosity reduction and overall macropore shape and distribution in grainstones to packstones deposited on the intermediate outer ramp, was mainly dependent on the following factors: (1) amount of echinoid plates and spines, (2) grain size, (3) grain sorting and shapes, and (4) clay amount. Differently, in the wackestones to mudstones, laid down on the low-energy, distal outer ramp, matrix is the key sedimentologic factor responsible for low values of scattered macroporosity and dominance of microporosity. The aforementioned results may be useful to improve the prediction of reservoir quality by means of mapping, simulating, and assessing individual carbonate facies with peculiar pore-network characteristics.

Published
2013

29. Deformation bands in porous carbonate grainstones: Field and laboratory observations

Author

Patrick Baud, Christopher J. Spiers, Antonino Cilona, Fabrizio Agosta, Andrea Rustichelli, Emanuele Tondi, and Sergio Vinciguerra

Subjects
Aardwetenschappen, Wet conditions, Brittleeductile transition, Mineralogy, Limestones, Geology, Cataclastic rock, Deformation (meteorology), Strain hardening exponent, Grain size, Shear stress, Deformation bands, Micromechanics, Pressure solution, Deformation processes, Crystal twinning
Abstract

Recent field-based studies documented deformation bands in porous carbonates; these structures accommodate volumetric and/or shear strain by means of pore collapse, grain rotation and/or sliding. Microstructural observations of natural deformation bands in carbonates showed that, at advanced stages of deformation, pressure solution helps to reduce the grain size, enhancing comminuted flow and forming narrow cataclastic zones within the bands. In contrast, laboratory studies on the mechanics of deformation bands in limestones identified grain crushing, pore collapse and mechanical twinning as the micromechanisms leading to strain localization. Here, we present a multidisciplinary field and laboratory study performed on a Cretaceous carbonate grainstone to investigate the microprocesses associated to deformation banding in this rock. A quantitative microstructural analysis, carried out on natural deformation bands aimed at defining the spatial distribution of pressure solutions, was accompanied by a force chain orientation study. Two sets of triaxial experiments were performed under wet conditions on selected host rock samples. The deformed samples often displayed a shear-enhanced compaction behavior and strain hardening, associated with various patterns of strain localization. We constrained the pressure conditions at which natural deformation bands developed by reproducing in laboratory both low and high angle to the major principal stress axis deformation bands. The comparison among natural and laboratory-formed structures, allowed us to gain new insights into the role, and the relative predominance, of different microprocesses (i.e. microcracking, twinning and pressure solution) in nature and laboratory.

Published
2012

32. Fault growth as a key control on the sedimentary architecture and depositional environments of extensional basins: The case study of the Tablate area (Granada Basin, Spain)

Author

Andrea Rustichelli, Emanuele Tondi, Jesús Galindo-Zaldívar, Fabrizio Agosta, Claudio Di Celma, and Vincenzo Spina

Subjects
General Earth and Planetary Sciences, Geology, Humanities, Geomorphology, Extensional definition
Abstract

Evoluzione di sistemi di faglie normali e loro controllo sull'architettura stratigrafica e sugli ambienti deposizionali di bacini estensionali (Tablate, Bacino di Granada, Spagna).L'integrazione di analisi stratigrafiche, sedimentologiche e strutturali ha consentito di dedurre l'evoluzione spazio-temporale, a partire dal Miocene medio, di un piccolo settore del Bacino di Granada, l'area di Tablate. L'architettura stratigrafica e gli ambienti deposizionali vengono descritti ed associati alle varie fasi evolutive del sistema di faglie normali che ha controllato l'evoluzione del bacino. L'architettura stratigrafica ha registrato la completa evoluzione di un bacino estensionale sviluppatosi alla sommita di un orogene (Cordigliera Betica). A partire dal Serravalliano, il progressivo sviluppo di due sets ortogonali di faglie normali orientate ~E-W and ~N-S ha guidato l'evoluzione del bacino da una moltitudine di piccole depressioni lagunari e continentali riempite rispettivamente da marne gessifere e arenarie rossastre, ad un singolo bacino marino presente durante il Tortoniano, dove sedimentarono calcareniti, calciruditi, arenarie e conglomerati. A partire dal Tortoniano superiore una fase di sollevamento regionale condusse ad una regressione deposizionale con la deposizione di sedimenti fluvio-lacustri tardomiocenicisovrastanti i sedimenti marini suddetti. I sovrastanti conglomerati continentali plio-quaternari suturarono le faglie normali oramai inattive. Sulla base della distribuzione latero-verticale delle varie unita sedimentarie mioceniche e stato possibile stimare lunghezza e rigetto verticale delle faglie normali attive tra il Serravalliano ed il Messiniano. Lunghezze fino a 1 km e rigetti verticali fino a 30 m sono stati stimati per le faglie attive nel Serravalliano. Lunghezze fino a 4 km e rigetti verticali fino a 130 m sono invece stati attribuiti alle faglie piu mature attive tra il Tortoniano ed il Messiniano.

36. Structural diagenesis, early embrittlement and fracture setting in shallow-water platform carbonates (Monte Alpi Southern Apennines, Italy)

Author

Juliette Lamarche, Fabrizio Agosta, Andrea Rustichelli, V. La Bruna, Roland Salardon, Alessandro Giuffrida, and Lionel Marié

Subjects
Petrography, Tectonics, Outcrop, Facies, Fracture (geology), Geochemistry, Lithification, Geology, Cretaceous, Diagenesis
Abstract

SummaryBed-perpendicular diffuse fractures are common features in carbonates that could be affected by early embrittlement process, which may enhance vertically persistent, opening-mode fractures during the first stages of diagenesis. Early-developed fractures could be independent of tectonics and form a background structural network at different scale. This study focuses on the structural, stratigraphic and petrographic characterization, from outcrop- to micro-scale of Lower Cretaceous, shallow-water, tight limestones pertaining to the Inner Apulian Platform paleogeographic/tectonic domain. These carbonates consist of a wide spectrum of inner platform-platform margin calcareous facies, namely mudstones, wackestones, packstones, grainstones, bindstones, floatstones and rudstones. The presented work is addressed on understanding the development of the early diagenetic features which occurred during the first stages of the sediment lithification processes and the description of the formation, geometry and distribution of the contemporaneous and subsequent structural elements. Field analyses in concert with laboratory analyses unrevealed the main structural-diagenetic events which affected the studied shallow-water carbonates. Petrographic analyses highlight early fractures are intrinsically related to the host rock pore type. Finally, evolution of the fracture network is summarized in a conceptual model by taking into account the several tectonic phases which affect the Monte Alpi sector

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