Your search keyword '"Di Celma C"' showing total 25 results

1. Tephrochronology and chronostratigraphy of the Miocene Chilcatay and Pisco formations (East Pisco Basin, Peru)

Author

Anna Gioncada, Karen Gariboldi, Elisa Malinverno, Giovanni Bianucci, V. Barberini, Mario Urbina, Igor M. Villa, Giulia Bosio, Claudio Di Celma, Bosio, G, Malinverno, E, Villa, I, Di Celma, C, Gariboldi, K, Gioncada, A, Barberini, V, Urbina, M, and Bianucci, G

Subjects

tephrochronology, tephrostratigraphy, 39Ar–40Ar dating, biostratigraphy, Miocene, Pisco Basin, Stratigraphy, Biostratigraphy, Structural basin, 0603 philosophy, ethics and religion, 39Ar40Ar dating, Miocene, Pisco Basin, Tephrochronology, Tephrostratigraphy, Unconformity, 050105 experimental psychology, Paleontology, Pisco Formation, 0501 psychology and cognitive sciences, Chronostratigraphy, Tephra, 05 social sciences, Geology, 06 humanities and the arts, 060302 philosophy, Volcanic ash

Abstract

Strata of Chilcatay and Pisco formations exposed in the Ica Desert (East Pisco Basin, southern Peru) preserve one of the most complete and rich records of Miocene marine vertebrates of the world. Despite its exceptional importance, the chronostratigraphy of these fossil-bearing deposits has been only sporadically studied in the literature until recently. This work presents a detailed reconstruction of the chronostratigraphic framework, achieved by mapping and measuring of seven sections (totaling a height of almost 1000 m) of the Miocene Chilcatay and Pisco formations along the western side of the Ica River. The Chilcatay Formation consists of two allomembers, namely Ct1 and Ct2, bounded at the base by unconformities CE0.1 and CE0.2, respectively. Similarly, the immediately overlying Pisco Formation is divided into allomembers P0, P1, and P2, bounded at the base by unconformities PE0.0, PE0.1 and PE0.2, respectively. The new 39Ar–40Ar results presented here, combined with ages of previous work, provide precise constraints on the age of several stratigraphically referenced volcanic ash layers intercalated in the studied fossil-bearing succession, placing its vertebrate fossil fauna within a refined temporal framework and laying the solid ground for its detailed regional and global comparison. The ages of the allomembers, and thus their associated faunas, can be reliably estimated by the combination of 39Ar–40Ar dating on tephra layers with diatom biostratigraphy. In the study area, two methods are mutually consistent and constrain the deposition of the Chilcatay Formation between 19.2 and 18.0 Ma, that of P1 between 9.5 and 8.6 Ma, and that of P2 between 8.4 and 6.7 Ma. In the absence of direct dating of the P0 allomember, which lacks both preserved tephra suitable for 39Ar–40Ar dating and microfossils, its age can be constrained to the temporal gap between the youngest age available from the underlying Chilcatay strata (18.0 Ma) and the oldest age available from the overlying P1 strata (9.5 Ma).

Published

2020

2. Laterally-Continuous Dolomite Layers of the Miocene Pisco Formation (East Pisco Basin, Peru): A Window into Past Cyclical Changes of the Diagenetic Environment

Author

Elisa Malinverno, Giulia Bosio, Anna Gioncada, Raffaella Cimò, Sergio Andò, Luca Mariani, Giovanni Coletti, Chiara Boschi, Karen Gariboldi, Lucia Galimberti, Giovanni Bianucci, Mario Urbina, Claudio Di Celma, Malinverno, E, Bosio, G, Gioncada, A, Cimo, R, Ando', S, Mariani, L, Coletti, G, Boschi, C, Gariboldi, K, Galimberti, L, Bianucci, G, Urbina, M, and Di Celma, C

Subjects

History, East Pisco Basin, Polymers and Plastics, Stratigraphy, Early diagenesi, Geology, Dolomite, Oceanography, Stable isotope, Industrial and Manufacturing Engineering, Geophysics, Economic Geology, Business and International Management, XRD analyse

Abstract

Along the Peruvian coast, the sedimentary succession of the East Pisco Basin is exposed in the Ica Desert. At Cerro Los Quesos, laterally continuous dolomite layers characterise the diatomaceous sediments of the P2 sequence of the Miocene Pisco Formation, where a large number of marine vertebrates are exceptionally preserved, many enclosed in dolomite nodules. In this work, cemented layers from this sequence were described and sampled for petrographic, chemical, microscopic and isotopic analyses. Dolomite occurs in continuous 10–50 cm thick well cemented layers, formed by sediment of different nature: biogenic, terrigenous, volcanoclastic, and phosphatic. The underlying sediments exhibit a yellow layer with sparse dolomite crystals, a black layer with abundant Mn-oxides, and a reddish layer rich in Fe-oxides, indicating redox-related fronts. Two generations of dolomite can be recognised: an early diagenetic microcrystalline one, and a sparry one, filling the large cavities. As observed in both thin sections and on broken surfaces, microcrystalline dolomite also fills the inner spaces of the diatom areolae replicating their finest ultrastructure, such as foramina and cribra and replace calcite shells of foraminifera. δ18O and δ13C values from the microcrystalline dolomite of two layers, selected based on the absence of other carbonate phases (e.g. calcite) and the lack of sparry cement, are in agreement with those reported for the Peru margin and fall in the fields of either sulphate-reduction or methanogenesis. All the data point to dolomite precipitation associated with low-temperature early diagenesis that typically occurs in upwelling settings, where high surface water productivity is responsible for high rates of organic carbon flux to the sea bottom and for the cyclical oxygen depletion at the bottom. Such conditions also promote high abundances of marine vertebrates and the exceptional preservation of their skeletons in the sediments.

Published

2022

3. Ultrastructure, composition, and 87Sr/86Sr dating of shark teeth from lower Miocene sediments of southwestern Peru

Author

Giulia Bosio, Giovanni Bianucci, Alberto Collareta, Walter Landini, Mario Urbina, Claudio Di Celma, Bosio, G, Bianucci, G, Collareta, A, Landini, W, Urbina, M, and Di Celma, C

Subjects

Enameloid, Strontium Isotope Stratigraphy (SIS), Dentine, Chilcatay Formation, Pisco Basin, Geology, Bioapatite, Earth-Surface Processes

Abstract

Bioapatite of fossil bone and teeth is susceptible to alteration and ion exchange during burial and diagenesis, varying its Sr content through the geological time. Nevertheless, fossil shark teeth are a powerful proxy for both chronostratigraphic and paleoecological reconstructions, thanks to the presence of the enameloid, a hard outer layer consisting of resistant fluorapatite crystallites. Here, we analyze fossil shark teeth from the Miocene sediments of the Chilcatay Formation of the Pisco Basin (southwestern Peru) with the aim of dating poorly constrained strata in this region. (Ultra)structural and compositional analyses of fossil lamniform and carcharhiniform teeth are performed through macroscopical observations, optical microscopy and SEM-EDS for evaluating the preservation state of the collected teeth. Shark teeth display a compact and well preserved outer enameloid layer formed by highly ordered bundles of crystallites that is distinctly separated by a more porous and heterogeneous inner core of dentine featuring diagenetic artefacts and microborings. Compositional mapping highlights differences in the distribution of Ca, P, F, and S in the enameloid and dentine, and chemical results show a Sr content that is consistent with the range reported for extant shark teeth. The best preserved teeth were selected for Strontium Isotope Stratigraphy (SIS), measuring the 87Sr/86Sr values in the enameloid and obtaining numerical (absolute) age estimates. In the Ica River Valley, SIS dates the Chilcatay strata to the Burdigalian (between 19.1 and 18.1 Ma), in agreement with previous radiometric, isotopic and biostratigraphic ages obtained in the same region. At Media Luna, the Chilcatay strata are dated herein for the first time, resulting in a slightly older age of 21.8–20.1 Ma (late Aquitanian–early Burdigalian). These results strengthen the notion that the Sr-ratio of shark teeth can be successfully applied for obtaining reliable age estimates via SIS.

Published

2022

4. Allostratigraphy and paleontology of the lower Miocene Chilcatay Formation in the Zamaca area, East Pisco basin, southern Peru

Author

Elisa Malinverno, Walter Landini, Pietro Paolo Pierantoni, Anna Gioncada, Giancarlo Molli, Rafael M. Varas-Malca, Mario Urbina, Giulia Bosio, Felix G. Marx, C. Di Celma, Alberto Collareta, Karen Gariboldi, C. de Muizon, Olivier Lambert, Giovanni Bianucci, Centre de Recherche en Paléontologie - Paris (CR2P), Muséum national d'Histoire naturelle (MNHN)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Di Celma, C, Pierantoni, P, Malinverno, E, Collareta, A, Lambert, O, Landini, W, Bosio, G, Gariboldi, K, Gioncada, A, de Muizon, C, Molli, G, Marx, F, Varas-Malca, R, Urbina, M, Bianucci, G, Università degli Studi di Camerino (UNICAM), Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Royal Belgian Institute of Natural Sciences (RBINS), Monash University [Clayton], Museo de Historia Natural de Lima (MHN), and Universidad Nacional Mayor de San Marcos (UNMSM)

Subjects

lcsh:Maps, facies analysis, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, Allostratigraphy, Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, vertebrate paleontology, Paleontology, lcsh:G3180-9980, [SDU.STU.ST]Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Marine vertebrate, Earth and Planetary Sciences (miscellaneous), Facies analysi, 14. Life underwater, Vertebrate paleontology, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Geology, 0105 earth and related environmental sciences

Abstract

International audience; Based on mapping of laterally traceable stratigraphic discontinuities, we propose a high-resolution allostratigraphic scheme for one of the world's foremost fossil marine vertebrate Lagerstätten: the lower Miocene strata of the Chilcatay Formation exposed along the Ica River near Zamaca, southern Peru. Measured sections combined with 1:10,000 scale mapping of a 24 km 2 area provide an overview of the stratal architecture, as well as a general facies framework and interpretation of the various depositional settings. As a whole, the Chilcatay alloformation is bounded by the CE0.1 unconformity at the base and the PE0.0 unconformity at the top. An internal Chilcatay surface, termed CE0.2, splits the alloformation into two distinct allomembers (Ct1 and Ct2). The Ct1 allomember comprises three facies associations recording deposition in shoreface, offshore, and subaqueous delta settings. The Ct2 allomember comprises two facies associations, recording deposition in shoreface and offshore settings. Using these data, we place the rich marine vertebrate assemblage in a precise spatial and stratigraphic framework. The well-diversified vertebrate assemblage is dominated by cetaceans (mostly odontocetes) and sharks (mostly lamniforms and carcharhiniforms); rays, bony fish, and turtles are also present. Taxonomic novelties include the first records of baleen whales, platanistids, and eurhinodelphinids from the Chilcatay Formation. ARTICLE HISTORY

Published

2019

5. (Bio)stratigraphic overview and paleoclimatic-paleoceanographic implications of the middle-upper Eocene deposits from the Ica River Valley (East Pisco Basin, Peru)

Author

Alberto Collareta, Giovanni Sarti, Elisa Malinverno, Mario Urbina, Giancarlo Molli, Giovanni Bianucci, Claudio Di Celma, Karen Gariboldi, Giulia Bosio, Pietro Paolo Pierantoni, Gabriella Bagnoli, Anna Gioncada, Malinverno, E, Bosio, G, Di Celma, C, Gariboldi, K, Gioncada, A, Pierantoni, P, Collareta, A, Molli, G, Bagnoli, G, Sarti, G, Urbina, M, and Bianucci, G

Subjects

calcareous nannofossils, Otuma Formation, fossil Lagerstätte, Paleozoic, Paracas Formation, Structural basin, Oceanography, Unconformity, diatoms, Paleontology, silicoflagellate, silicoflagellates, Siltstone, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes, Extinction event, biology, Proterozoic, biology.organism_classification, diatom, Diatom, calcareous nannofossil, Upwelling, Geology

Abstract

The Eocene sediment successions of the East Pisco Basin (southern Peru) host an exceptionally rich and well-preserved assemblage of vertebrate fossils. However, due to the dearth of geochronological and biostratigraphic controls as well as of stratigraphic correlations, our understanding of these rocks and their fossil content remains elusive. This paper provides a comprehensive calcareous nannofossil, diatom, and silicoflagellate biostratigraphic framework for the Eocene strata exposed at four localities along the Ica River Valley, permitting a robust chronological calibration of the marine vertebrate fauna entombed therein and a better definition of important appearance/ extinction events. The Paracas Formation, deposited directly on top of the Proterozoic and Paleozoic rocks of the crystalline basement, is formed by a siliciclastic-bioclastic sand-sized deposit (Los Choros member) and calcareous-terrigenous siltstone (Yumaque member) that was deposited from the Lutetian (47.8–41.2 Ma) through the Bartonian (41.2–37.7 Ma) to the early Priabonian (37.7–33.9 Ma). The unconformably overlying Otuma Formation consists of a basal sandstone, followed by calcareous siltstone intercalated by diatomite layers towards the top. In the study area, the Otuma Formation is Priabonian in age and is truncated at the top by an unconformity at the base of the overlying Miocene Chilcatay Formation. Due to the angular nature of the unconformity, the upper Otuma strata reach the Oligocene elsewhere. Average sedimentation rates range from 17 to 24 m/My in the Yumaque member of the Paracas Formation and increase to 147–170 m/My in the Otuma Formation. The microfossil assemblages witness a coastal setting with warm-temperate conditions for the Paracas Formation that become slightly cooler (though still temperate) in the upper Otuma Formation. Diatomaceous layers in the upper Otuma Formation indicate an overall increase in nutrient availability, which could reflect the global reorganization of ocean currents at the Eocene-Oligocene transition. However, the taxonomic composition of the diatom assemblage suggests seasonal rather than persistent upwelling conditions.

Published

2021

6. An investigation of vermetid reefs from the Miocene of Peru, with the description of a new species

Author

Tomáš Kočí, Claudio Di Celma, Mario Urbina, Alberto Collareta, Giovanni Bianucci, Boris Ekrt, Elisa Malinverno, Giulia Bosio, Rossana Sanfilippo, Sanfilippo, R, Koci, T, Bosio, G, Collareta, A, Ekrt, B, Malinverno, E, Di Celma, C, Urbina, M, and Bianucci, G

Subjects

Systematics, 010506 paleontology, Tube structure, Taphonomy, East Pisco Basin, Thylacodes, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, Genus, Pisco Formation, Thylacode, Reef, 0105 earth and related environmental sciences, Earth-Surface Processes, geography, geography.geographical_feature_category, biology, Palaeoecology, South America, Geology, biology.organism_classification, Taxon, Paleoecology, Vermetidae

Abstract

Exquisitely preserved fossils of a new reef-building vermetid species from shallow-marine lower Miocene (Burdigalian) deposits of the Chilcatay Formation and upper Miocene (Tortonian) sediments of the Pisco Formation of Peru are here reported and described in detail for the first time. These finds are assigned to the living genus Thylacodes and recognized as representatives of a new species, Thylacodes devriesi sp. nov. This new taxon is known by long, almost straight tube-like shells that display peculiar ornamentations in form of striated lamellae and are arranged in an organ-pipe fashion. This discovery represents an important addition to the knowledge of the systematics and distribution of Thylacodes in South America in the geological past. Paleoenvironmental and taphonomic inferences drawn by the fossil remains of this reef-forming species are herein discussed for both the Chilcatay and Pisco Formations in the broader framework of the South American fossil record of Vermetidae.

Published

2021

7. Distribution and paleoenvironmental framework of middle Miocene marine vertebrates along the western side of the lower Ica Valley (East Pisco Basin, Peru)

Author

Pietro Paolo Pierantoni, Walter Landini, Claudio Di Celma, Olivier Lambert, Giulia Bosio, Mario Urbina, Felix G. Marx, Alberto Collareta, Elisa Malinverno, Giovanni Bianucci, Collareta, A, Di Celma, C, Bosio, G, Pierantoni, P, Malinverno, E, Lambert, O, Marx, F, Landini, W, Urbina, M, and Bianucci, G

Subjects

paleoenvironment, P0 allomember, 010504 meteorology & atmospheric sciences, Geography, Planning and Development, paleontological heritage, Distribution (economics), Structural basin, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, stomatognathic system, biology.animal, Pisco Formation, Earth and Planetary Sciences (miscellaneous), Assemblage (archaeology), Vertebrate paleontology, 0105 earth and related environmental sciences, G3180-9980, biology, business.industry, Vertebrate, vertebrate paleontology, Facies analysis, paleoenvironments, Maps, %22">Fish , Facies analysi, business, Geology

Abstract

We report 130 vertebrate fossils preserved as bony elements and the co-occurring assemblage of fish teeth and spines from the lower strata of the Pisco Formation exposed along the western side of the lower Ica Valley (East Pisco Basin, Peru). Geological mapping at 1:10,000 scale reveals that all these fossils originate from the Langhian–Serravallian P0 allomember. In the study area, P0 is up to ∼40 m thick and features a sandy lower portion, reflecting shoreface deposition, that fines upwards into a package of offshore silts. Marine vertebrates only occur in the lower sandy layers and include whales, dolphins, reptiles, birds, and bony and cartilaginous fishes. The reconstructed paleoenvironment is consistent with a warm-water, marginal-marine setting with a strong connection to the open ocean. This work helps to elucidate the rich yet still poorly understood middle Miocene portions of the Pisco Formation, and highlights the need to conserve this outstanding Fossil-Lagerstätte.

Published

2021

8. Sedimentological and stratigraphic signature of the Plio-Pleistocene tectonic events in the Southern Apennines, Italy: The Calvello-Anzi Basin case study

Author

Danica Jablonska, Stefano Mazzoli, Valentino Di Donato, Vincenzo Spina, Alan Pitts, Emanuele Tondi, Claudio Di Celma, Pitts, A. D., Jablonska, D., Di Donato, V., Mazzoli, S., Spina, V., Di Celma, C., and Tondi, E.

Subjects

Extensional fault, Piacenzian, 010504 meteorology & atmospheric sciences, Stratigraphy, Geology, Plio-Pleistocene, Structural basin, 010502 geochemistry & geophysics, Oceanography, 01 natural sciences, Unconformity, Sedimentary depositional environment, Paleontology, Geophysics, Facies, Economic Geology, Sedimentary rock, Calvello BasinPiggy-backPleistocenePlioceneSouthern ApenninesTectonicsThrust-top, 0105 earth and related environmental sciences

Abstract

The Plio-Pleistocene Calvello-Anzi Basin (CAB) represents a synorogenic shallow marine to alluvial succession deposited during the late phase of the Apennine Orogenic event. While the stratigraphy and sedimentary cycles are well known, the precise role and timing of the tectonic phases affecting this area are unclear. In this paper we report the major findings from a study aimed at unraveling the signatures of the Plio-Quaternary tectonic events affecting the CAB and this portion of the Southern Apennines by using a field integrated approach characterized by facies analysis, structural surveying, and basin architecture. The CAB is located in the axial portion of the Southern Apennine chain and has a roughly E-W orientation which is at a high angle with respect the main NW-SE striking regional tectonic structures controlling the foreland-directed migration of the compression. In the study area, an approximately 1,200-meter-thick package of Zanclean (early-middle Pliocene) to Santernian (middle Pleistocene) shelf, shallow marine, and alluvial deposits accumulated during the late stages of the Apennine orogenic evolution. Within the CAB deposits we recognize two main depositional motifs which roughly correspond to previously established regional cycles that are genetically linked to two corresponding tectonic phases of the Southern Apennine chain. Our results reveal how these two main tectonic phases played a primary role in controlling the depositional architecture, facies, depocenter distribution, and the basin shape throughout the CAB's lifespan. In the proposed model, during the first depositional stage (Zanclean), the CAB formed as a wedge-top basin, controlled by the subsurface propagation of NW-SE-trending thrusts related to the main NE-SW directed shortening of the Apennines. This stage is recorded in the basal units of the CAB infill by progressive unconformities, the development of syn-tectonic shallow marine sedimentary wedges along a high gradient tectonically controlled depositional surface, and a marked SE migration of the main depocenter. During the second depositional stage (upper Piacenzian to Santernian), the CAB was controlled by a series of roughly E-W-trending normal faults which crosscut the preexisting compressional structural fabric. Syndepositional activity along these faults played a direct role in creating an E-W oriented tectonic depression and controlling the accommodation space for the upper portion of the CAB infill. This second stage is marked by two points of evidence. The first point is revealed by a southwestward migration of the CAB depocenter driven by ~90-degree rotation from a roughly NW-SE elongated pattern to roughly elongated W-E transverse to the Pliocene regional structural fabric. This depocenter drift also coincides with an abrupt change in depositional regime from shallow marine to continental sedimentation. The second and most important point of evidence is the presence of several basin-bounding extensional fault zones which cut the lower Pliocene basin-fill units. We relate these features to the middle upper Pleistocene transition to along-strike extension, widely reported in the Southern Apennines, which is related to the overall extensional regime that is acting on the chain also at present. Data from this study provide additional insight into the evolution of the Southern Apennine chain, the formation of the Plio-Pleistocene CAB, and the debated role of Quaternary tectonics on the basin's development during the post-collision orogenic phases. Given the proximity of the study area with several oil fields and considering that hydrocarbon traps in Southern Apennines are Plio-Quaternary in age, the constraints provided on the timing and the style of the regional deformation may improve the definitions of hydrocarbon traps in the buried Apulian platform.

Published

2020

9. Two-mica rhyolitic tephra in the East Pisco Basin (Peru): new age and dispersion constraints for the eruptions of the Eastern Cordillera of Central Andes

Author

Giulia Bosio, Claudio Di Celma, Mario Urbina, Anna Gioncada, Igor M. Villa, Giovanni Bianucci, Michel Pichavant, Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Università degli Studi di Camerino (UNICAM), Magma - UMR7327, Institut des Sciences de la Terre d'Orléans - UMR7327 (ISTO), Bureau de Recherches Géologiques et Minières (BRGM) (BRGM)-Observatoire des Sciences de l'Univers en région Centre (OSUC), Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université d'Orléans (UO)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université d'Orléans (UO)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut national des sciences de l'Univers (INSU - CNRS)-Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS)-Bureau de Recherches Géologiques et Minières (BRGM) (BRGM)-Observatoire des Sciences de l'Univers en région Centre (OSUC), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut national des sciences de l'Univers (INSU - CNRS)-Université d'Orléans (UO)-Centre National de la Recherche Scientifique (CNRS), Universidad Nacional Mayor de San Marcos (UNMSM), Bosio, G, Gioncada, A, Di Celma, C, Villa, I, Pichavant, M, Urbina, M, and Bianucci, G

Subjects

010504 meteorology & atmospheric sciences, Macusani, Geochemistry, Silicic, engineering.material, Central Andes, 010502 geochemistry & geophysics, 01 natural sciences, 39Ar–40Ar ages, Geochemistry and Petrology, Morococala, 550 Earth sciences & geology, Rhyolite, Pisco Formation, Tephra, Forearc, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Strongly peraluminous tephra, Miocene, Volcano, [SDU]Sciences of the Universe [physics], engineering, Strongly peraluminous tephra, 39Ar–40Ar ages, Miocene, Central Andes, Macusani, Morococala, Biotite, Geology, Volcanic ash

Abstract

International audience; wo-mica—biotite and muscovite—volcanics are particularly rare in the geological record. One of the several dozen volcanic ash layers from Central Andes volcanoes found in the upper Miocene marine succession of the Pisco Formation (Ica Desert, Peru) contains juvenile biotite and muscovite, sillimanite/andalusite, feldspars, and rhyolitic glass. 39Ar–40Ar dating on biotite and muscovite concordantly constrain an age of 7.96 Ma for this two-mica ash layer. A second tephra in the Pisco Formation has a similar biotite composition and an age between 7.45 and 6.93 Ma. The peculiar mineral assemblage and the chemical composition of biotite indicate a strongly peraluminous composition of the erupted magmas and, together with the 39Ar–40Ar ages, suggest to consider a correlation of these ash layers to the eruptions of the Miocene Macusani (Peru) or Morococala (Bolivia) volcanic complexes in the Eastern Cordillera of Central Andes. The major and trace element composition of glass supports the correlation with Macusani. A provenance from Morococala seems less likely given the large distances involved. These results provide new data on the volcanic activity of the Eastern Cordillera revealing ash that dispersed to over 500 km to the west, in the forearc marine basins. This finding highlights that the exhumed forearc East Pisco Basin is highly promising as an archive of distal ash for the reconstruction of the volcanic activity of Central Andes during the Miocene silicic flare-ups.

Published

2020

10. Strontium Isotope Stratigraphy and the thermophilic fossil fauna from the middle Miocene of the East Pisco Basin (Peru)

Author

Agostina Vertino, Giulia Bosio, Anna Gioncada, Elisa Malinverno, Alberto Collareta, Mario Urbina, Giovanni Bianucci, Fabrizio Berra, Mariano Parente, Felix G. Marx, Claudio Di Celma, Bosio, G, Malinverno, E, Collareta, A, Di Celma, C, Gioncada, A, Parente, M, Berra, F, Marx, F, Vertino, A, Urbina, M, Bianucci, G, Bosio, Giulia, Malinverno, Elisa, Collareta, Alberto, Di Celma, Claudio, Gioncada, Anna, Parente, Mariano, Berra, Fabrizio, Marx, Felix G., Vertino, Agostina, Urbina, Mario, and Bianucci, Giovanni

Subjects

010506 paleontology, Mollusk, Shark teeth, Structural basin, Late Miocene, 010502 geochemistry & geophysics, 01 natural sciences, 87Sr/86Sr stratigraphy, Diagenesis evaluation, Miocene, Mollusks, Shark teeth, Cetaceans, Paleontology, Pisco Formation, 14. Life underwater, Forearc, 0105 earth and related environmental sciences, Earth-Surface Processes, Cetaceans, Mollusks, 87Sr/86Sr stratigraphy, Geology, Miocene, Cetacean, Isotopes of strontium, Diagenesis, Stratigraphy, Global cooling, Diagenesis evaluation

Abstract

New age estimates obtained via Strontium Isotope (87Sr/86Sr) Stratigraphy and new paleoclimatic data are here presented for the Miocene Chilcatay and Pisco formations exposed in the East Pisco Basin, an Andean forearc basin of southern Peru, which is renowned worldwide for its exceptional content of fossil marine vertebrates. Mollusk and barnacle shells, carbonate nodules, and shark teeth were collected along three stratigraphic sections for applying Strontium Isotope Stratigraphy on both carbonates and phosphates. To avoid diagenetic biases, mollusk and barnacle shells were analyzed in detail by means of optical and scanning electron microscopy, cathodoluminescence, and inductively coupled plasma-optical emission spectrometry, whereas only the enameloid from the best-preserved shark teeth was sampled. The obtained 87Sr/86Sr ages confirm a late early Miocene (Burdigalian) age for the Chilcatay strata, and reveal middle Miocene (Langhian to Serravallian) ages for the lower Pisco unit (i.e., the P0 sequence) – a result that matches the relatively archaic aspect of its cetacean fossil assemblage. New and literature data about the fossil assemblage of the lower Pisco beds highlight the presence of several thermophilic invertebrates and vertebrates, thus suggesting a warm-water, tropical paleoenvironment for this middle Miocene sequence. Such a paleoenvironmental scenario recalls the warm conditions associated with the Chilcatay Formation, rather than the cooler setting inferred for the remainder of the Pisco Formation (i.e., the P1 and P2 sequences). This pattern likely reflects the late Miocene trend of global cooling, as well as a middle to early late Miocene strengthening of the Humboldt Current.

Published

2020

11. Chemical and petrographic fingerprinting of volcanic ashes as a tool for high-resolution stratigraphy of the upper Miocene Pisco Formation (Peru)

Author

Anna Gioncada, Igor M. Villa, Giuseppe Cataldi, Giovanni Bianucci, Alberto Collareta, Karen Gariboldi, Mario Urbina, Claudio Di Celma, Elisa Malinverno, Giulia Bosio, Bosio, G, Gioncada, A, Malinverno, E, Di Celma, C, Villa, I, Cataldi, G, Gariboldi, K, Collareta, A, Urbina, M, and Bianucci, G

Subjects

010504 meteorology & atmospheric sciences, CALC-ALKALINE, CENTRAL ANDES, Geochemistry, FOSSIL MARINE VERTEBRATES, engineering.material, DEPOSITS, 010502 geochemistry & geophysics, 01 natural sciences, chemical fingerprinting, Petrography, high-resolution stratigraphy, 550 Earth sciences & geology, volcanic ash, Peru, Pisco Formation, NAZCA RIDGE, Tephra, Forearc, ERUPTION, 0105 earth and related environmental sciences, TEPHRA LAYERS, SOUTHERN PERU, IGNIMBRITES, AREA, Geology, Miocene, tephra, 560 Fossils & prehistoric life, Stratigraphy, petrographic fingerprinting, engineering, Chemical fingerprinting, Biotite, tephrostratigraphy, Volcanic ash

Abstract

Tephra layers are a unique tool for stratigraphy. Their geologically instantaneous deposition together with their dispersion on wide areas make them a powerful instrument for dating and correlating simultaneous events at different localities. In this paper, we present and discuss the application of tephra fingerprinting in the upper Miocene portion of the Pisco Formation. The Pisco Formation is an important marine vertebrate Fossil-Lagerstätte that crops out in the Ica Desert, on the Peruvian Coast. The paleontological relevance of this formation has entailed the necessity of reconstructing a chronostratigraphic framework, using 40Ar/39Ar dating and correlations on volcanic ashes. Tephra layers from the volcanic activity of the Peruvian Andes are very frequent in the Pisco Formation and many represent a primary air-fall deposition on the sea floor. Therefore, many samples from tephra layers within measured stratigraphic sections at different sites in the study area were fingerprinted with a combined approach, using petrographic and chemical analyses on phenocrysts and volcanic glasses, as well as glass shard morphology and granulometric analyses, performed on 53 selected samples, collected from different localities. Based on the results obtained, we correlate some tephra layers in two localities at several km distance, where the correlation between the measured sections was previously only hypothetical. Major element chemistry of biotite proved a valuable tool to discriminate different tephra in the upper Miocene portion of the Pisco Formation, due to the presence of peraluminous as well as metaluminous compositions. This work shows that it is possible to apply tephra fingerprinting and tephrostratigraphy in a complex situation such as that represented by the Pisco Formation, where a high number of apparently similar volcanic ash layers were deposited in a shallow marine environment. The application of this correlation method allows us to increase the chronostratigraphic detail in the studied interval of the Pisco Formation, providing an accurate framework in which fossil marine vertebrates are stratigraphically located. The obtained high-resolution chronostratigraphy will greatly clarify the evolutionary history of Cetaceans.

Published

2018

12. Insights into the diagenetic environment of fossil marine vertebrates of the Pisco Formation (late Miocene, Peru) from mineralogical and Sr-isotope data

Author

Giovanni Bianucci, Karen Gariboldi, Riccardo Petrini, Mario Urbina, C. Di Celma, Elena Bonaccorsi, Giulia Bosio, Marco Pasero, Anna Gioncada, Alberto Collareta, Elisa Malinverno, Gioncada, A, Petrini, R, Bosio, G, Gariboldi, K, Collareta, A, Malinverno, E, Bonaccorsi, E, Di Celma, C, Pasero, M, Urbina, M, and Bianucci, G

Subjects

Fossilization, 010506 paleontology, Mollusk, Dolomite, Mineralogy, Late Miocene, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 010502 geochemistry & geophysics, 01 natural sciences, chemistry.chemical_compound, GEO/08 - GEOCHIMICA E VULCANOLOGIA, Pisco Formation, Marine vertebrate, 0105 earth and related environmental sciences, Earth-Surface Processes, Anhydrite, Bone preservation, Sr-isotope, Geology, Miocene, Gypsum, Diagenesis, Calcium carbonate, Sr-isotopes Gypsum Fossilization Miocene Marine vertebrates Mollusks, chemistry, Sedimentary rock

Abstract

The late Miocene Pisco Formation of Peru is an outstanding example of richness and high-quality preservation of fossil marine vertebrates. In order to reconstruct the fossilization path, we present new textural, mineralogical and Sr-isotope data of diagenetic minerals formed in correspondence of fossil specimens such as marine vertebrates and mollusks. These fossil specimens were found at Cerro los Quesos, in the Ica Desert, within the diatomaceous strata of the Pisco Formation. Dolomite, gypsum, anhydrite and Mn minerals are the main phases found, while the calcium carbonate originally forming the mollusk valves is replaced by gypsum. An early formation of dolomite and of Mn minerals, triggered by the modifications of the geochemical environment due to organic matter degradation, is suggested by the textural relationships and is confirmed by the Sr isotopic ratio of dolomite, which agrees with that of seawater at the time of sedimentation. Instead, gypsum Sr isotopic ratios indicate a pre-Miocene seawater-derived brine circulating within the sedimentary sequence as a source for Sr. Oxidation of diagenetic sulfide causing a lowering of the pH of porewater is proposed as an explanation for Ca-carbonate dissolution. The diagenetic chemical environment was, nevertheless, favorable to bone preservation.

Published

2018

13. Taphonomy of marine vertebrates of the Pisco Formation (Miocene, Peru): Insights into the origin of an outstanding Fossil-Lagerstätte

Author

Elisa Malinverno, Giovanni Bianucci, Karen Gariboldi, Christian de Muizon, Felix G. Marx, Mario Urbina, Olivier Lambert, Anna Gioncada, Giulia Bosio, Claudio Di Celma, Alberto Collareta, Rafael Varas Malca, Centre de Recherche en Paléontologie - Paris (CR2P), Muséum national d'Histoire naturelle (MNHN)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Bosio, G, Collareta, A, Di Celma, C, Lambert, O, Marx, F, de Muizon, C, Gioncada, A, Gariboldi, K, Malinverno, E, Malca, R, Urbina, M, Bianucci, G, Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Università degli Studi di Camerino (UNICAM), Institut Royal des Sciences Naturelles de Belgique (IRSNB), University of Otago [Dunedin, Nouvelle-Zélande], Museo de Historia Natural de Lima (MHN), and Universidad Nacional Mayor de San Marcos (UNMSM)

Subjects

Teeth, Taphonomy, rapid burial, Marine and Aquatic Sciences, Marine fossils, 010502 geochemistry & geophysics, 01 natural sciences, Sedimentary structures, Peru, Pisco Formation, Medicine and Health Sciences, Musculoskeletal System, Chondrichthyes, Sedimentary Geology, Mammals, Multidisciplinary, biology, Fossils, Eukaryota, Vertebrate, Geology, Vertebrates, Medicine, Anatomy, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Cenozoic, Research Article, 010506 paleontology, Science, Marine Biology, Lagerstätte, biostratinomy, Paleontology, Biostratinomy, biology.animal, Marine vertebrate, Animals, 14. Life underwater, Marine Mammals, Skeleton, Petrology, 0105 earth and related environmental sciences, Organisms, Whales, Biology and Life Sciences, fossil diagenesi, fossilisation, soft tissue preservation, Invertebrates, Fossils, Sediment, Vertebrates, Skeleton, Sharks, Whales, Marine fossils, Teeth, Fish, Jaw, cetacean, Amniotes, Earth Sciences, Sharks, Sediment, Zoology, Digestive System, Head, Elasmobranchii

Abstract

International audience; The Miocene Pisco Formation, broadly exposed in the Ica Desert of southern Peru, is among the most outstanding Cenozoic marine Fossil-Lagerstä tten worldwide. It is renowned for its exceptional preservation and abundance of vertebrate fossils, including a rich assemblage of whales and dolphins (Cetacea). Here, we integrate taphonomic data on 890 marine vertebrate fossils, gathered through 16 different localities. Our observations range from the taxonomic distribution, articulation, completeness, disposition and orientation of skeletons, to the presence of bite marks, associations with shark teeth and macroinvertebrates, bone and soft tissue preservation, and the formation of attendant carbonate concretions and sedimentary structures. We propose that the exceptional preservation characterising many Pisco vertebrates, as well as their exceptionally high abundance, cannot be ascribed to a single cause like high sedimentation rates (as proposed in the past), but rather to the interplay of several favourable factors including: (i) low levels of dissolved oxygen at the seafloor (with the intervention of seasonal anoxic events); (ii) the early onset of mineralisation processes like apatite dissolution/recrystallisation and carbonate mineral precipitation; (iii) rapid burial of carcasses in a soupy substrate and/or a novel mechanism involving scour-induced self-burial; and (iv) original biological richness. Collectively, our observations provide a comprehensive overview of the taphonomic processes that shaped one of South America's most important fossil deposits, and suggest a model for the formation of other marine vertebrate Fossil-Lagerstä tten.

Published

2021

14. Biostratigraphic, evolutionary, and paleoenvironmental significance of the southernmost lepidocyclinids of the Pacific coast of South America (East Pisco Basin, southern Peru)

Author

Silvia Spezzaferri, Giovanni Coletti, Giulia Bosio, Alberto Collareta, Daniela Basso, Claudio Di Celma, Elisa Malinverno, Torin Cannings, Valentina Alice Bracchi, Stephanie Stainbank, Giovanni Bianucci, Coletti, G, Bosio, G, Collareta, A, Malinverno, E, Bracchi, V, Di Celma, C, Basso, D, Stainbank, S, Spezzaferri, S, Cannings, T, and Bianucci, G

Subjects

010506 paleontology, Range (biology), Population, Paracas Formation, Los Choros Member, Nepionic acceleration, Biostratigraphy, Structural basin, Eocene, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 010502 geochemistry & geophysics, 01 natural sciences, Foraminifera, Paleontology, Lepidocyclina, Large benthic foraminifera, education, 0105 earth and related environmental sciences, Earth-Surface Processes, education.field_of_study, biology, Geology, biology.organism_classification, Lepidocyclina, Large benthic foraminifera, Eocene, Nepionic acceleration, Paracas Formation, Los Choros Member, Benthic zone, Protoconch, Cenozoic

Abstract

Lepidocyclinids are one of the most common group of Cenozoic large benthic foraminifera and, thanks to their clear evolutionary patterns, they are extensively used in biostratigraphy. They originated during the Eocene in the American region and then spread eastward, reaching a worldwide distribution in the Oligocene. This paper investigates the southernmost population of lepidocyclinids ever found along the Pacific coast of South America, located in the lower part of the Paracas Formation (Los Choros Member) of the East Pisco Basin of Peru. The examined Los Choros strata are composed of mixed siliciclastic-bioclastic coarse-grained deposits. The skeletal assemblage is dominated by large benthic foraminifera and mollusks with subordinate echinoids and barnacles, suggesting a deposition in a shallow, tropical, shelf environment with a moderate nutrient supply. The large benthic foraminiferal assemblage is largely dominated by Lepidocyclina rdouvillei. This species is extremely primitive, exhibiting ancestral characters such as a straight wall separating the protoconch and deuteroconch, very large principal auxiliary chambers and a poorly organized equatorial plane. The presence of common and primitive L. rdouvillei, supported by the associated occurrence of Polylepidina, suggests an age comprised between 43.6 Ma and 40.5 Ma for the Los Choros Member in the study area. This range is confirmed by nannofossil assemblages that indicate an age between 42.37 Ma and 40.34 Ma for the base of the overlying Yumaque Member of the Paracas Formation. These results highlight the potential of lepidocyclinids for biostratigraphy and paleoenvironmental reconstructions in South America.

Published

2019

15. The early Miocene elasmobranch assemblage from Zamaca (Chilcatay Formation, Peru)

Author

Walter Landini, Mario Urbina, Giovanni Bianucci, Elisa Malinverno, Alberto Collareta, Claudio Di Celma, Landini, W, Collareta, A, Di Celma, C, Malinverno, E, Urbina, M, and Bianucci, G

Subjects

010506 paleontology, Ray, Chondrichthye, Rays, Late Miocene, 010502 geochemistry & geophysics, Neogene, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 01 natural sciences, Burdigalian, Chondrichthyes, Paleoecology, Paleoenvironment, Sharks, Geology, Earth-Surface Processes, Pisco Formation, Carcharhiniformes, Assemblage (archaeology), 0105 earth and related environmental sciences, biology, Ecology, biology.organism_classification, Lamniformes, Cenozoic

Abstract

A newly discovered elasmobranch assemblage from the fossil-bearing area of Zamaca (Chilcatay Formation, southern Peru) is described herein, providing a first comprehensive view on the early Miocene shark and ray paleocommunities of the East Pisco Basin, whose sedimentary infill represents one of the most important Cenozoic Fossil-Lagerstatten worldwide. The studied assemblage includes at least twenty-two species attributed to twelve families and five orders. Thirteen taxa are recorded for the first time from the Chilcatay Formation, and four of them are recorded for the first time from the Pacific coast of South America. The reconstructed paleoenvironmental scenario is consistent with a shallow-marine coastal area, representative of a sheltered shelfal setting, influenced by both brackish and open-ocean waters. This paleoenvironment was inhabited by a community of small mesopredator elasmobranchs that exploited the Zamaca area as a nursery ground and recruitment area. The structure of the Zamaca assemblage is mainly explained by three key-features: 1) a taxonomic composition dominated by two shark lineages, Lamniformes and Carcharhiniformes, the former being predominant; 2) the leading role played by two species, Carcharhinus brachyurus and †Cosmopolitodus hastalis, accounting for about 60% of the analyzed specimens; 3) the distinctly juvenile imprint of the entire assemblage. Striking similarities emerge between the elasmobranch assemblage from Zamaca and the late Miocene one from Cerro Colorado (Pisco Formation, East Pisco Basin), thus suggesting the persistence of a peculiar “biological enclave” driven by the concurrence of the ecological, environmental, and oceanographic factors that characterized the coast of present-day Peru during the Neogene.

Published

2019

16. Mineralogical and geochemical characterization of fossil bones from a Miocene marine Konservat-Lagerstätte

Author

Giovanni Bianucci, Karen Gariboldi, Elisa Malinverno, Alberto Collareta, Marco Pasero, Claudio Di Celma, Anna Gioncada, Elena Bonaccorsi, Giulia Bosio, Mario Urbina, Bosio, G, Gioncada, A, Gariboldi, K, Bonaccorsi, E, Collareta, A, Pasero, M, Di Celma, C, Malinverno, E, Urbina, M, and Bianucci, G

Subjects

Fossilization, 010506 paleontology, East Pisco Basin, Dolomite, Geochemistry, Lagerstätte, 010502 geochemistry & geophysics, 01 natural sciences, Apatite, Sedimentary depositional environment, chemistry.chemical_compound, Pisco Formation, Chilcatay Formation, Bioapatite, 0105 earth and related environmental sciences, Earth-Surface Processes, Geology, Diagenesis, chemistry, visual_art, Mammalian bone, visual_art.visual_art_medium, Carbonate

Abstract

Fossil bones, together with teeth, are the most common remains of vertebrates that could manage to get preserved over geological times, providing information on the diagenetic and fossilization processes that occurred in the depositional paleoenvironment. Fossil bones from the marine vertebrate Konservat-Lagerstatte in the East Pisco Basin and Sacaco area (Peru) show a high variety of different textural and chemical features, suggestive of different processes variably contributing to the fossilization path. At the macroscopic scale, bone samples can be grouped into six different categories on the basis of the color (red to gray to white) and hardness (which relates to the mineralization degree); a variety of case studies can be found between these categories. Microscopically, the original microstructure of the bone tissue, both compact and cancellous, is well preserved in all the studied samples, with differences in cavity fillings, distribution of microcracks, and presence of Fe oxides in the diverse bone types. The bone composition and mineralogy correspond to fluorapatite. Differences in color, mineralization degree and geochemistry can be interpreted in terms of different fossilization paths, from burial at the seafloor to exposure in the present-day desert environment. The fossilization paths are strongly conditioned by the factors controlling the interplay of the mechanisms of apatite dissolution-recrystallization and dolomite precipitation (formation of carbonate concretions) as well as the fixation of iron in finely disseminated sulfides in the very early stages of fossilization.

Published

2021

17. Taphonomy and palaeoecology of the lower Miocene marine vertebrate assemblage of Ullujaya (Chilcatay Formation, East Pisco Basin, southern Peru)

Author

Alberto Collareta, Walter Landini, Mario Urbina, Karen Gariboldi, Giulia Bosio, Giovanni Coletti, Claudio Di Celma, Giovanni Bianucci, Igor M. Villa, Olivier Lambert, Christian de Muizon, Elisa Malinverno, Anna Gioncada, Rafael M. Varas-Malca, Università di Pisa - UNIPISA (Pisa, Italy), Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Institut Royal des Sciences Naturelles de Belgique (IRSNB), CONISMA, Centre National de la Recherche Scientifique (CNRS), Universidad Nacional Mayor de San Marcos (UNMSM), Bianucci, G, Collareta, A, Bosio, G, Landini, W, Gariboldi, K, Gioncada, A, Lambert, O, Malinverno, E, de Muizon, C, Varas-Malca, R, Villa, I, Coletti, G, Urbina, M, and Di Celma, C

Subjects

010506 paleontology, Taphonomy, Framboid, Evolution, Palaeoenvironment, Palaeoenvironments, 010502 geochemistry & geophysics, Oceanography, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 01 natural sciences, Paleontology, Burdigalian, Cetacea, Elasmobranchii, Fossil-Lagerstätte, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes, Behavior and Systematics, Marine vertebrate, Assemblage (archaeology), 14. Life underwater, 0105 earth and related environmental sciences, biology, Ecology, biology.organism_classification, Ecology, Evolution, Behavior and Systematic, Benthic zone, Carcharhinus, Earth-Surface Processe, Facies, Paleoecology, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Geology

Abstract

International audience; The taphonomy and palaeoecology of the early Miocene (Burdigalian) vertebrate assemblage of Ullujaya (East Pisco Basin, Peru) is here described. Vertebrate remains are concentrated in marine facies (Ct1a association) of the exposed Chilcatay Formation (dated 19-18 Ma) deposited within a 30-40 m deep, semi-enclosed, offshore environment. Coupled with ichnological observations, the size distribution of pyrite framboid relics reveals fluctuation of euxinic and oxic-dysoxic conditions at the seafloor. The assemblage is dominated by toothed cetaceans (kentriodontids, squalodelphinids, physeteroids, and the eurhinodelphinid-like Chilcacetus), together with a large dermochelyid turtle, some bony fish, and diverse elasmobranchs, mostly juveniles of Carcharhinus brachyurus and Cosmopolitodus hastalis. The vertebrate assemblage comprises a coastal community, dominated by mesopredators, representative of a warm-temperate, sheltered embayment connected with riverine and open-ocean environments. Vertebrate skeletons are typically disarticulated and incomplete, and some bone elements display shark bite marks. Microborings are observed at the bone surface. Bones exhibit a good degree of apatite mineralisation and bone cavities are locally filled by Ca-Mg carbonates. Our taphonomic observations suggest prolonged flotation of carcasses during which they were subject to biogenic and physical processes of partial destruction (including scavenging by sharks), before final deposition on a soft compact substrate. Preservation was favoured by the oxygen-deficient bottom conditions that inhibited the action of benthic macro-scavengers.

Published

2018

18. Facies analysis, stratigraphy and marine vertebrate assemblage of the lower Miocene Chilcatay Formation at Ullujaya (Pisco basin, Peru)

Author

Anna Gioncada, Giulia Bosio, Giovanni Bianucci, Elisa Malinverno, Karen Gariboldi, Mario Urbina, Olivier Lambert, C. Di Celma, C. de Muizon, Giovanni Coletti, Igor M. Villa, Pietro Paolo Pierantoni, Alberto Collareta, Walter Landini, Centre de recherche sur la Paléobiodiversité et les Paléoenvironnements (CR2P), Centre National de la Recherche Scientifique (CNRS)-Muséum national d'Histoire naturelle (MNHN)-Université Pierre et Marie Curie - Paris 6 (UPMC), Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Museo de Historia Natural de Lima (MHN), Universidad Nacional Mayor de San Marcos (UNMSM), Centre de Recherche en Paléontologie - Paris (CR2P), Muséum national d'Histoire naturelle (MNHN)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Di Celma, C, Malinverno, E, Collareta, A, Bosio, G, Gariboldi, K, Lambert, O, Landini, W, Pierantoni, P, Gioncada, A, Villa, I, Coletti, G, de Muizon, C, Urbina, M, and Bianucci, G

Subjects

010506 paleontology, Geography, Planning and Development, chronostratigraphy, Allostratigraphy, Biostratigraphy, 010502 geochemistry & geophysics, 01 natural sciences, diatoms, vertebrate palaeontology, Paleontology, lcsh:G3180-9980, Marine vertebrate, Earth and Planetary Sciences (miscellaneous), Assemblage (archaeology), 14. Life underwater, Sedimentology, Vertebrate paleontology, Chronostratigraphy, 0105 earth and related environmental sciences, lcsh:Maps, Planning and Development, Geography, Diatoms, Silicoflagellates, Vertebrate palaeontology, Diatom, Stratigraphy, [SDU.STU.ST]Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, Facies, biostratigraphy, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, silicoflagellates, Geology, Silicoflagellate

Abstract

International audience; This paper is the first integrated account of the sedimentology, stratigraphy, and vertebrate paleontology for the marine strata of the Chilcatay Formation exposed at Ullujaya, Pisco basin (southern Peru). An allostratigraphic framework for the investigated strata was established using geological mapping (1:4000 scale) and conventional sedimentary facies analysis and resulted in recognition of two unconformity-bounded allomembers (designated Ct1 and Ct2 in ascending order). The chronostratigraphic framework is well constrained by integration of micropaleontological data and isotope geochronology and indicates deposition during the early Miocene. The marine vertebrate fossil assemblage is largely dominated by cetaceans (odontocetes), whereas isolated teeth and spines indicate a well-diversified elasmobranch assemblage. Our field surveys, conducted to evaluate the paleontological sensitivity of the investigated strata, indicate that vertebrate remains only came from a rather restricted stratigraphic interval of the Ct1 allomember and reveal the high potential for these sediments to yield abundant and scientifically significant fossil assemblages. ARTICLE HISTORY

Published

2018

19. Intraformational unconformities as a record of late Miocene eustatic falls of sea level in the Pisco Formation (southern Peru)

Author

Pietro Paolo Pierantoni, Anna Gioncada, Claudio Di Celma, Alberto Collareta, Walter Landini, Karen Gariboldi, Giovanni Bianucci, Giulia Bosio, Elisa Malinverno, Di Celma, C, Malinverno, E, Bosio, G, Gariboldi, K, Collareta, A, Gioncada, A, Landini, W, Pierantoni, P, and Bianucci, G

Subjects

lcsh:Maps, 010506 paleontology, River valley, Pisco Formation, glacio-eustasy, Outcrop, Geography, Planning and Development, Pisco Formation, late Miocene, allostratigraphy, glacio-eustasy, Late Miocene, late Miocene, 010502 geochemistry & geophysics, allostratigraphy, 01 natural sciences, Unconformity, Paleontology, lcsh:G3180-9980, Earth and Planetary Sciences (miscellaneous), Field mapping, Sea level, Geology, 0105 earth and related environmental sciences

Abstract

Field mapping and sedimentological study of outcrop sections exposed along the Ica River valley permitted the establishment of a regional allostratigraphic framework for the upper Miocene portion of the Pisco Formation. The stratigraphy of the studied interval is illustrated using a new 1:20,000-scale geological map which reveals that this formation is a cyclical sedimentary succession composed of three fining-upward allomembers. The bounding surfaces defining each allomember are transgressively modified subaerial unconformities. They converge and merge landward into a single composite surface representing the time-transgressive lower boundary of the Pisco Formation. Accordingly, the extent of the stratigraphic gap associated with the basal unconformity varies significantly throughout the basin and increases toward the basin margins. The timing of allomember-bounding surfaces coincides with that of major oxygen-isotope maxima in the deep-sea oxygen isotopic record and matches the ages of eustatic sequence boundaries identified elsewhere, indicating glacio-eustatic falls due to the growth of Antarctica ice sheets as a viable mechanism for their development.

Published

2018

20. Fossil marine vertebrates of Cerro Los Quesos: Distribution of cetaceans, seals, crocodiles, seabirds, sharks, and bony fish in a late Miocene locality of the Pisco Basin, Peru

Author

Bianucci, Giovanni, Di Celma, Claudio, Collareta, Alberto, Landini, Walter, Post, Klaas, Tinelli, Chiara, Bosio, Giulia, Gariboldi, Karen, Gioncada, Anna, Malinverno, Elisa, Cantalamessa, Gino, Altamirano-Sierra, Ali, Salas-Gismondi, Rodolfo, Urbina, Mario, Lambert, Olivier, Billet, G., Germain, D., Ruf, I., De Muizon, Christian, Hautier, Lionel, Centre de Recherche en Paléontologie - Paris (CR2P), Muséum national d'Histoire naturelle (MNHN)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Università di Pisa - UNIPISA (Pisa, Italy), Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), CONISMA, Museo de Historia Natural de Lima (MHN), Universidad Nacional Mayor de San Marcos (UNMSM), Departament de Petrologia, Geoquímica i Prospecció Geològica, Universitat de Barcelona, université de Barcelone, Institut Royal des Sciences Naturelles de Belgique (IRSNB), Paléobiodiversité et paléoenvironnements, Muséum national d'Histoire naturelle (MNHN)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC), Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Bianucci, G, Di Celma, C, Collareta, A, Landini, W, Post, K, Tinelli, C, de Muizon, C, Bosio, G, Gariboldi, K, Gioncada, A, Malinverno, E, Cantalamessa, G, Altamirano Sierra, A, Salas Gismondi, R, Urbina, M, and Lambert, O

Subjects

010506 paleontology, Geography, Planning and Development, Crocodile, Late Miocene, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 010502 geochemistry & geophysics, 01 natural sciences, Paleontology, biology.animal, Pisco Formation, Stratigraphic section, Marine vertebrate, Peru, Earth and Planetary Sciences (miscellaneous), 14. Life underwater, Paleontological heritage, Marine vertebrates, Fossils, Miocene, Peru, 0105 earth and related environmental sciences, fossil, biology, Holotype, Miocene, 15. Life on land, Paleontological heritage, Oceanography, [SDU.STU.ST]Sciences of the Universe [physics]/Earth Sciences/Stratigraphy, marine vertebrates, marine vertebrate, Seabird, fossils, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Geology, Volcanic ash

Abstract

International audience; One-hundred and ninety-two fossil marine vertebrate specimens, preserved as bone elements cropping out at Cerro Los Quesos (Pisco Basin, Peru), are identified and reported on a 1:4,000 scale geological map and in the corresponding stratigraphic section. All the fossils originate from the Pisco Formation, which is dated in this area to the late Miocene (from 7.55 Ma to ≥6.71 Ma, based on 40 Ar/ 39 Ar analyses of three volcanic ash layers along the section). Specimens are particularly concentrated near the top of the two main hills, where the geologically youngest portion of the examined section crops out. The impressive fossil assemblage includes cetaceans (91.6%), represented by mysticetes (balaenopteroids and cetotheriids) and odontocetes (phocoenids, physeteroids, and ziphiids, including the holotype of Nazcacetus urbinai). Seals, a crocodile, a seabird, bony fish, and sharks are also reported. Isolated large teeth of Carcharocles and Cosmopolitodus are common and, in several instances, associated to mysticete skeletons. Together with a similar work recently published for the other late Miocene locality of Cerro Colorado, this work represents a case study for the detailed inventory of the extraordinary paleontological heritage of the Pisco Basin. As such, it constitutes the basis for future taphonomic, paleoecological, and systematic studies, as well as for a much-needed conservation effort. ARTICLE HISTORY

Published

2016

21. Distribution of fossil marine vertebrates in Cerro Colorado, the type locality of the giant raptorial sperm whale Livyatan melvillei (Miocene, Pisco Formation, Peru)

Author

Bianucci, G, DI CELMA, Claudio Nicola, Landini, W, Post, K, Tinelli, C, de Muizon, C, Gariboldi, K, Malinverno, E, Cantalamessa, Gino, Gioncada, A, Collareta, A, Salas Gismondi, R, Varas, R, Stucchi, M, Urbina, M, Lambert, O., Dipartimento di Scienze della Terra [Pisa], University of Pisa - Università di Pisa, Centre de Recherche en Paléontologie - Paris (CR2P), Muséum national d'Histoire naturelle (MNHN)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Università degli Studi di Milano-Bicocca [Milano] (UNIMIB), Università degli Studi di Camerino (UNICAM), Museo de Historia Natural de Lima (MHN), Universidad Nacional Mayor de San Marcos (UNMSM), Royal Belgian Institute of Natural Sciences (RBINS), Bianucci, G, Di Celma, C, Landini, W, Post, K, Tinelli, C, de Muizon, C, Gariboldi, K, Malinverno, E, Cantalamessa, G, Gioncada, A, Collareta, A, Gismondi, R, Varas Malca, R, Urbina, M, Lambert, O, Dipartimento di Scienze dell'Ambiente e del Territorio (DISAT), and Università degli Studi di Milano [Milano] (UNIMI)

Subjects

010506 paleontology, paleontological heritage, Geography, Planning and Development, Peru # 2015 Giovanni Bianucci, Late Miocene, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, 010502 geochemistry & geophysics, 01 natural sciences, Unconformity, Paleontology, Raptorial, Sperm whale, Peru, Stratigraphic section, Pisco Formation, Earth and Planetary Sciences (miscellaneous), 14. Life underwater, 0105 earth and related environmental sciences, fossil, biology, marine vertebrates, fossils, Miocene, Geologic map, biology.organism_classification, marine vertebrate, Type locality, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Geology

Abstract

International audience; Hundreds of fossil marine vertebrates cropping out at Cerro Colorado (Pisco Basin, Peru) are identified and reported on a 1:6500 scale geological map and in a joined stratigraphic section. All the fossils are from the lower strata of the Pisco Formation, dated in this area to the late middle or early late Miocene. They are particularly concentrated (88%) in the stratigraphic interval from 40 to 75 m above the unconformity with the underlying Chilcatay Formation. The impressive fossil assemblage includes more than 300 specimens preserved as bone elements belonging mostly to cetaceans (81%), represented by mysticetes (cetotheriids and balaenopteroids) and odontocetes (kentriodontid-like delphinidans, pontoporiids, ziphiids, and physeteroids, including the giant raptorial sperm whale Livyatan melvillei). Seals, crocodiles, sea turtles, seabirds, bony fish, and sharks are also reported. Isolated large teeth of Carcharocles and Cosmopolitodus are common throughout the investigated stratigraphical interval, whereas other shark teeth, mostly of carcharinids, are concentrated in one sandy interval. This work represents a first detailed census of the extraordinary paleontological heritage of the Pisco Basin and the basis for future taphonomic, paleoecological, and systematic studies, as well as a much needed conservation effort for this extremely rich paleontological site.

Published

2016

22. 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

23. 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

24. Looking for the key to preservation of fossil marine vertebrates in the Pisco Formation of Peru: new insights from a small dolphin skeleton

Author

Olivier Lambert, Giulia Bosio, Claudio Di Celma, Jennifer Pike, Alberto Collareta, Elisa Malinverno, Giovanni Bianucci, Karen Gariboldi, Anna Gioncada, Mario Urbina, Gioncada, A, Gariboldi, K, Collareta, A, Di Celma, C, Bosio, G, Malinverno, E, Lambert, O, Pike, J, Urbina, M, and Bianucci, G

Subjects

Fossilization, 010506 paleontology, Taphonomy, Stratigraphy, Dolomite, Geochemistry, Phosphatization, engineering.material, 010502 geochemistry & geophysics, Neogene, 01 natural sciences, chemistry.chemical_compound, Geochemistry and Petrology, Concretion, Marine vertebrate, Pisco Formation, Marine vertebrates, Early diagenesis, 0105 earth and related environmental sciences, Paleontology, Geology, Diagenesis, Marine vertebrates, Taphonomy, Pisco Formation, Fossilization, Phosphatization, Early diagenesis, chemistry, engineering, Carbonate

Abstract

The upper Neogene Pisco Formation of Peru is known worldwide as one of the most significant Cenozoic\ud marine vertebrate Konservatt-Lagerstätten, even featuring cetacean specimens that retain remains of soft tissues or\ud stomach contents. Previous works showed that biomediated precipitation of dolomite concretions around large-sized\ud decaying carcasses was one of the most relevant processes responsible for exceptional fossil preservation. In turn, little is\ud known about the modes of fossilization of well-preserved small-sized vertebrates, which are rather common in the Pisco\ud Formation, but mostly do not exhibit dolomite concretions. We report on a cetacean specimen, identified as belonging\ud to the extinct short-snouted, small dolphin species Brachydelphis mazeasi (Pontoporiidae), preserved within a late\ud Miocene sandy deposit at the site of Pampa Corre Viento. This specimen consists of a moderately disarticulated partial\ud skeleton exhibiting well-mineralized bones; it is not enclosed within a dolomite concretion, being however delimited\ud by an evident dark boundary in the host sediment. Scanning electron microscopy and microanalytical investigations\ud identify Mn-oxides and apatite as early diagenetic minerals around the skeleton. We argue that a rapid burial of the\ud specimen was pivotal for the preservation of the bones, and allowed the early establishment of anoxic processes for\ud degradation of organic matter. Coupled with availability of P in porewater, the reducing conditions and the lowered\ud pH allowed precipitation of Ca-phosphate while increasing Mn solubility close to the pontoporiid carcass. Mn-oxides\ud precipitated at the redox boundary, the latter defining the outer edge of the volume of sediment affected by altered\ud chemical conditions due to the decaying processes. The permeability of the sediment and the small size of the carcass\ud were possible factors unfavorable to extensive sulfate reduction, thus preventing the formation of a dolomite concretion\ud and allowing bone phosphatization. This record emphasizes the role of conditions favorable to bone mineralization in\ud absence of an isolating carbonate concretion, in cases of high quality preservation of small-sized vertebrates observed\ud in the Pisco Formation. The observation of patterns in the distribution of diagenetic minerals in the sediment enclosing\ud vertebrate remains without, or with limited carbonate concretions provides insights into early taphonomic processes.

Published

2018

25. The dolomite nodules enclosing fossil marine vertebrates in the East Pisco Basin, Peru: Field and petrographic insights into the Lagerstätte formation

Author

Anna Gioncada, Walter Landini, Karen Gariboldi, Giulia Bosio, Mario Urbina, Elisa Malinverno, Chiara Tinelli, Claudio Di Celma, Giovanni Bianucci, Gino Cantalamessa, Gariboldi, K, Gioncada, A, Bosio, G, Malinverno, E, Di Celma, C, Tinelli, C, Cantalamessa, G, Landini, W, Urbina, M, and Bianucci, G

Subjects

Nodule (geology), Biomineralization, Biomineralization, Dolomite concretions, Marine vertebrates, Taphonomy, Pisco Formation, Taphonomy, Dolomite, Lagerstätte, Dolomite concretions, engineering.material, Oceanography, GEO/01 - PALEONTOLOGIA E PALEOECOLOGIA, Petrography, Paleontology, Pisco Formation, Marine vertebrates, Marine vertebrate, Ecology, Evolution, Behavior and Systematics, Earth-Surface Processes, Dolomite concretion, Ecology, Evolution, Behavior and Systematic, Diagenesis, Earth-Surface Processe, engineering, Geology

Abstract

The Mio-Pliocene Pisco Formation (Peru) is a world-famous marine vertebrate Lagerstatte. Several fossil specimens are wrapped up in dolomitic nodules. Some others lie in the sediment displaying dolomite only in bone cavities (e.g., mesorostral canal and endocranium). With the aim to understand whether the precipitation of the dolomitic nodules influenced the formation of the Lagerstatte, we collected field data on a high number of fossil vertebrates and conducted petrographic and mineralogical analyses on samples representative of the variable development of concretions. Our results revealed positive relationships between size, completeness and articulation of skeletons and the presence of an external nodule. Clear evidence of chemoautotrophic communities that thrived on the carcasses is scarce. Microborings are often found in the cortical bone tissues together with iron oxides; the former are left by microorganisms feeding on the carcass, the latter are traces of former Fe sulphides, a product of organic matter degradation. We suggest that an early burial of the skeletons was a determinant factor in the development of dolomite concretions, since it allowed methanogenesis and anaerobic sulphate reduction exploiting the lipids in the bones and the organic matter dispersed in the sediments. Dolomite precipitation was driven by the same bacteria operating during the suphophilic stage of whale-fall communities. Textural observations imply that dolomite precipitated shortly after the burial of carcasses. The increase of alkalinity generated by sulphate reduction and methanogenesis caused a rapid precipitation of the dolomite within skeletal cavities and prevented the degradation of the bones and diagenetic compression of skeletons; the nodules themselves prevented erosion of fossils after exhumation. Therefore, nodule formation had a crucial role in the development of the Pisco Lagerstatte.

Published

2015