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1. Artificial Intelligence-powered fossil shark tooth identification: Unleashing the potential of Convolutional Neural Networks

Author

Barucci, Andrea, Ciacci, Giulia, Liò, Pietro, Azevedo, Tiago, Di Cencio, Andrea, Merella, Marco, Bianucci, Giovanni, Bosio, Giulia, Casati, Simone, and Collareta, Alberto

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

All fields of knowledge are being impacted by Artificial Intelligence. In particular, the Deep Learning paradigm enables the development of data analysis tools that support subject matter experts in a variety of sectors, from physics up to the recognition of ancient languages. Palaeontology is now observing this trend as well. This study explores the capability of Convolutional Neural Networks (CNNs), a particular class of Deep Learning algorithms specifically crafted for computer vision tasks, to classify images of isolated fossil shark teeth gathered from online datasets as well as from the authors$'$ experience on Peruvian Miocene and Italian Pliocene fossil assemblages. The shark taxa that are included in the final, composite dataset (which consists of more than one thousand images) are representative of both extinct and extant genera, namely, Carcharhinus, Carcharias, Carcharocles, Chlamydoselachus, Cosmopolitodus, Galeocerdo, Hemipristis, Notorynchus, Prionace and Squatina. We developed a CNN, named SharkNet-X, specifically tailored on our recognition task, reaching a 5-fold cross validated mean accuracy of 0.85 to identify images containing a single shark tooth. Furthermore, we elaborated a visualization of the features extracted from images using the last dense layer of the CNN, achieved through the application of the clustering technique t-SNE. In addition, in order to understand and explain the behaviour of the CNN while giving a paleontological point of view on the results, we introduced the explainability method SHAP. To the best of our knowledge, this is the first instance in which this method is applied to the field of palaeontology. The main goal of this work is to showcase how Deep Learning techniques can aid in identifying isolated fossil shark teeth, paving the way for developing new information tools for automating the recognition and classification of fossils., Comment: 40 pages, 8 figures

Published
2024

10. Dancing Towards the End—Ecological Oscillations in Mediterranean Coral Reefs Prior to the Messinian Salinity Crisis (Calcare di Rosignano Formation, Acquabona, Tuscany, Italy).

Author

Coletti, Giovanni, Vimercati, Alberto, Bosellini, Francesca R., Collareta, Alberto, Bosio, Giulia, Guido, Adriano, Vescogni, Alessandro, Basso, Daniela, and Bialik, Or M.

Abstract

The lower Messinian Calcare di Rosignano Formation (Tuscany, Italy, 43° N) preserves one of the youngest and northernmost examples of coral reefs in the Mediterranean. The outcropping succession of the Acquabona quarry consists of four main facies, namely, in ascending stratigraphic order: (1) coral boundstone, (2) coralline algal rudstone, (3) serpulid floatstone to packstone, and (4) peloidal packstone to grainstone. The succession displays a trend toward increasingly more shallow conditions and progressively more restricted water circulation. The coral reef displays a limited coral biodiversity and a remarkable abundance of heterotrophs, similar to modern coral reefs developed at the edges of the ecological niche of symbiont-bearing colonial corals. The widespread presence of coral colonies pervasively encrusted by coralline algae and benthic foraminifera suggests that short-term environmental perturbations caused temporary shutdowns of the coral-dominated carbonate factory. Moving upwards, there are fewer corals and more highly adaptable carbonate producers like coralline algae and serpulids. This suggests that the decline of corals had been caused by the conditions in the basin becoming more stressful, up to the collapse of the coral community. The overall succession indicates that coral-dominated ecosystems located at the edges of the coral zone are very sensitive; they can be affected even by minor perturbations and easily collapse if negative conditions persist. [ABSTRACT FROM AUTHOR]

Published
2024
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13. The Youngest European Record of the Chelonian Family Trionychidae (Calabrian, Central Italy) Offers New Clues on the Quaternary Extirpation History of the Softshell Turtles.

Author

Collareta, Alberto, Casati, Simone, Terranova, Edoardo, Nobile, Francesco, Bosio, Giulia, Di Cencio, Andrea, and Coletti, Giovanni

Abstract

We report on the geologically youngest occurrence of the softshell turtle family Trionychidae in Europe, from middle Calabrian (Emilian) strata cropping out at Montalto, Pisa Province (Tuscany, central Italy). This record indicates that the softshell turtles survived well past the glacial pulse at ca. 1.8 Ma. That the most recent finds of Trionychidae all over Europe come from mainland Italy further evokes the role of the Apennine peninsula as a refugium for humid-dwelling herpetofaunas through most of the Plio-Pleistocene. Reduced humidity associated with the intensified cool stages at the beginning of the Early–Middle Pleistocene Transition may have been behind the demise of the last European softshell turtles. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Palaeoenvironmental analysis of the Miocene barnacle facies: case studies from Europe and South America

Author

Coletti Giovanni, Bosio Giulia, Collareta Alberto, Buckeridge John, Consani Sirio, and Kateb Akram El

Subjects
Carbonate Factories, Heterozoan, Barnamol, Barnalgal, Tertiary Piedmont Basin, Sommières Basin, Pisco Basin, Geology, QE1-996.5
Abstract

Acorn barnacles are sessile crustaceans common in shallow-water settings, both in modern oceans and in the Miocene geological record. Barnacle-rich facies occur from polar to equatorial latitudes, generally associated with shallow-water, high-energy, hard substrates. The aim of this work is to investigate this type of facies by analysing, from the palaeontological, sedimentological and petrographical points of view, early Miocene examples from Northern Italy, Southern France and South-western Peru. Our results are then compared with the existing information on both modern and fossil barnacle-rich deposits. The studied facies can be divided into two groups. The first one consists of very shallow, nearshore assemblages where barnacles are associated with an abundant hard-substrate biota (e.g., barnamol). The second one includes a barnacle-coralline algae association, here named “barnalgal” (= barnacle / red algal dominated), related to a deeper setting. The same pattern occurs in the distribution of both fossil and recent barnacle facies. The majority of them are related to very shallow, high-energy, hard-substrate, a setting that represents the environmental optimum for the development of barnacle facies, but exceptions do occur. These atypical facies can be identified through a complete analysis of both the skeletal assemblage and the barnacle association, showing that barnacle palaeontology can be a powerful tool for palaeoenvironmental reconstruction.

Published
2018
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24. 3D models related to the publication: A heavyweight early whale pushes the boundaries of vertebrate morphology

Author

Bianucci, Giovanni, primary, Lambert, Olivier, additional, Urbina, Mario, additional, Merella, Marco, additional, Collareta, Alberto, additional, Goussard, Florent, additional, Bennion, Rebecca, additional, Salas-Gismondi, Rodolfo, additional, Benites-Palomino, Aldo, additional, Post, Klaas, additional, de Muizon, Christian, additional, Bosio, Giulia, additional, Di Celma, Claudio, additional, Malinverno, Elisa, additional, Pierantoni, Pietro Paolo, additional, Maria Villa, Igor, additional, and Amson, Eli, additional

Published
2023
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26. Taphonomy of a Mysticete Whale from the Lower Pliocene of the Coast of Cádiz (Spain).

Author

Bosio, Giulia, Bajo-Campos, Ildefonso, Collareta, Alberto, Ros-Montoya, Sergio, de la Torre, Daniel, Coletti, Giovanni, and Bianucci, Giovanni

Subjects
WHALES, OYSTER shell, COMPACT bone, TRACE fossils, NEOGENE Period, TAPHONOMY, CLIFFS, PLIOCENE Epoch
Abstract

A fossil mysticete was discovered along the southwestern coast of Spain, occurring in a block detached from the Neogene deposits exposed along a coastal cliff at the locality of Conil de la Frontera (Cádiz, Spain). These deposits range from Pliocene to Pleistocene in age and include shallow-marine, mixed carbonate–siliciclastic sediments, with the whale being found in occurrence of a stratigraphic unconformity marked by Thalassinoides burrows. 87Sr/86Sr analyses on oyster shells associated with the skeleton suggest an Early Pliocene age, in agreement with the age of the lowermost unit cropping out at the study site. The studied cetacean specimen consists of an articulated, almost complete balaenopteroid skeleton exposed in the field dorsal side up; being contained in an upside-down block, however, it is preserved in ventral disposition. Bones exhibit a low degree of preservation of the cortical bone tissue, which locally features shark bite marks and Osedax traces as well as abundant encrustations of barnacles and ostreids. Two shark teeth were also found near the skeleton. Bones have preserved their main histological features, even though they locally exhibit microcracks, dissolution, substitution by Fe oxides, and microborings. Sediment particles and late diagenetic cements fill the medullary cavities. We propose that the whale carcass experienced refloating before sinking to the seafloor and that the skeleton was probably exposed on the seafloor for some time before being eventually buried. [ABSTRACT FROM AUTHOR]

Published
2024
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31. MUSM INV 297

Author

Collareta, Alberto, Bosio, Giulia, Varas-Malca, Rafael, Bianucci, Giovanni, Merella, Marco, Urbina, Mario, and Di Celma, Claudio

Abstract

3D model of the Aturia cf. cubaensis specimen MUSM INV 297, an internal mould of a phragmocone from the Middle Miocene portion of the Pisco Formation (Peru). This fossil is currently housed in the Museo de Historia Natural de la Universidad Nacional Mayor de San Marcos (=MUSM, Jesús María, Lima, Peru). MUSM INV 297 is described in the following article: Collareta, A., Bosio, G., Varas-Malca, R., Bianucci, G., Merella, M., Urbina, M., Di Celma, C. (2023). The extinct nautiloid Aturia in the Middle Miocene of Pacific South America: new data from the Pisco Lagerstätte of Peru. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. DOI: 10.1127/njgpa/2023/1128 To correctly visualize the textured 3D model in a 3D software, the three uploaded files (.obj, .mtl and .jpg) should be downloaded and stored within a single folder without changing the corresponding file names.

Published
2023
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37. A new chelonibiid from the Miocene of Zanzibar (Eastern Africa) sheds light on the evolution of shell architecture in turtle and whale barnacles (Cirripedia: Coronuloidea)

Author

Collareta, A, Newman, W, Bosio, G, Coletti, G, Collareta, Alberto, Newman, William A, Bosio, Giulia, Coletti, Giovanni, Collareta, A, Newman, W, Bosio, G, Coletti, G, Collareta, Alberto, Newman, William A, Bosio, Giulia, and Coletti, Giovanni

Abstract

The fossil history of turtle and whale barnacles (Coronuloidea: Chelonibiidae, Platylepadidae and Coronulidae) is fragmentary and has only been investigated in part. Morphological inferences and molecular phylogenetic analyses on extant specimens suggest that the roots of whale barnacles (Coronulidae) are to be found among the chelonibiid turtle barnacles, but the hard-part modifications that enabled early coronuloids to attach to the cetacean skin are still largely to be perceived. Here, we reappraise a fossil chelonibiid specimen from the Miocene of insular Tanzania that was previously referred to the living species Chelonibia caretta. This largely forgotten specimen is here described as the holotype of the new species Chelonibia zanzibarensis. While similar to C. caretta, C. zanzibarensis exhibits obvious external longitudinal parietal canals occurring in-between external longitudinal parietal septa that abut outwards to form T-shaped flanges, a character so far regarded as proper of the seemingly more derived Coronulidae and Platylepadidae. Along with these features, the presence of a distinct substrate imprint on the shell exterior indicates that C. zanzibarensis grasped its host's integument in much the same way as coronulids and platylepadids, albeit without the development of macroscopic parietal buttresses and bolsters. Thin section analyses of the inner parietal architecture of some extant and extinct coronuloids conclusively demonstrate that vestiges of comparable external parietal microstructures are present in some living members of Chelonibiidae. This observation strengthens the unity of Coronuloidea while significantly contributing to our understanding of the evolution of the coronuloid shell structure in adapting to a diverse spectrum of hosts.

Published
2022

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

Author

Malinverno, Elisa, primary, Bosio, Giulia, additional, Gioncada, Anna, additional, Cimò, Raffaella, additional, Andò, Sergio, additional, Mariani, Luca, additional, Coletti, Giovanni, additional, Boschi, Chiara, additional, Gariboldi, Karen, additional, Galimberti, Lucia, additional, Bianucci, Giovanni, additional, Urbina, Mario, additional, and Di Celma, Claudio, additional

Published
2022
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41. "Excess Ar" by laboratory alteration of biotite.

Author

Villa, Igor M. and Bosio, Giulia

Abstract

Many biotite phenocrysts from marine tephra layers have substoichiometric potassium concentrations and alkali occupation <<2.0 atoms per formula unit. Diagenetic alteration is an expected effect of exposure of fresh magmatic minerals to interstitial water and brine intrusions after the deposition and burial of sediments. To test the effect of diagenetic alteration on potassium-argon ages, we irradiated and step heated untreated Fish Canyon biotite (t = 28.2 Ma) and several aliquots leached to various extents in strong and weak acids. Laboratory alteration caused loss of K, age spectrum discordance, high step ages and total gas ages, Ar release at lower furnace temperature, higher Cl/K and Ca/K, and a slight decrease in 36Ar concentration. Potassium loss was always higher than 40Ar* loss. Electron microprobe element maps document that acids preferentially penetrated in phyllosilicate interlayers, removing K (and Na). Because Ar* is removed to a lesser extent than K, we propose that natural 40K decay partly implants radiogenic Ar* into the tetrahedral-octahedral-tetrahedral (T-O-T) phyllosilicate layer, where Ar is shielded from interlayer leaching. The recoiled 39Ar, which was produced by irradiation after the leaching, also partitioned between T-O-T and the interlayer; age spectrum discordance was probably enhanced by the heterogeneous partition of 39Ar and 40Ar* in leached samples. [ABSTRACT FROM AUTHOR]

Published
2023
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42. Ghosts of the Holobiont: Borings on a Miocene Turtle Carapace from the Pisco Formation (Peru) as Witnesses of Ancient Symbiosis.

Author

Collareta, Alberto, Varas-Malca, Rafael, Bosio, Giulia, Urbina, Mario, and Coletti, Giovanni

Subjects
TURTLES, MIOCENE Epoch, FOSSIL bones, SEA turtles, SYMBIOSIS, TURTLE populations, OLIGOCENE Epoch, TRACE fossils
Abstract

In spite of the widespread occurrence of epibiotic turtle barnacles (Coronuloidea: Chelonibiidae and Platylepadidae) on extant marine turtles (Chelonioidea: Cheloniidae and Dermochelyidae), and although the association between these cirripedes and their chelonian hosts has existed for more than 30 million years, only a few studies have investigated the deep past of this iconic symbiotic relationship on palaeontological grounds. We describe probable platylepadid attachment scars in the form of hemispherical/hemiellipsoidal borings on an Upper Miocene (Tortonian) fragmentary turtle carapace, identified herein as belonging to Cheloniidae, from the Pisco Lagerstätte (East Pisco Basin, southern Peru). When coupled with the available molecular data, this and other similar ichnofossils allow for hypothesising that platylepadid symbionts were hosted by sea turtles as early as in early Oligocene times and became relatively widespread during the subsequent Miocene epoch. Chelonian fossils that preserve evidence of colonisation by platylepadid epibionts in the form of pits on the turtle shell should be regarded as fossil holobionts, i.e., palaeontological witnesses of discrete communal ecological units formed by a basibiont and the associated symbionts (including the epibiota). A greater attention to the bone modifications that may be detected on fossil turtle bones is expected to contribute significantly to the emerging field of palaeosymbiology. [ABSTRACT FROM AUTHOR]

Published
2023
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43. A case of Vaccine-Induced Thrombotic Thrombocytopenia (VITT) with thrombosis of the superior mesenteric artery after ChAdOx1 nCov-19 COVID-19 Vaccine

Author

Pini, Laura, primary, Malerba, Paolo, additional, Giordani, Jordan, additional, Stassaldi, Deborah, additional, Aggiusti, Carlo, additional, Martini, Giuliana, additional, Arenare, Giulia, additional, Premoli, Chantale, additional, Bosio, Giulia, additional, Lancelotti, Marco, additional, Bosisio, Francesca, additional, Muzi, Giorgia, additional, and Muiesan, Maria Lorenza, additional

Published
2021
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44. Vertebrate Palaeoecology of the Pisco Formation (Miocene, Peru): Glimpses into the Ancient Humboldt Current Ecosystem

Author

Collareta, Alberto, primary, Lambert, Olivier, additional, Marx, Felix G., additional, de Muizon, Christian, additional, Varas-Malca, Rafael, additional, Landini, Walter, additional, Bosio, Giulia, additional, Malinverno, Elisa, additional, Gariboldi, Karen, additional, Gioncada, Anna, additional, Urbina, Mario, additional, and Bianucci, Giovanni, additional

Published
2021
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45. Taphonomy of marine vertebrates of the Pisco Formation (Miocene, Peru): Insights into the origin of an outstanding Fossil-Lagerstätte

Author

Bosio, Giulia, primary, Collareta, Alberto, additional, Di Celma, Claudio, additional, Lambert, Olivier, additional, Marx, Felix G., additional, de Muizon, Christian, additional, Gioncada, Anna, additional, Gariboldi, Karen, additional, Malinverno, Elisa, additional, Malca, Rafael Varas, additional, Urbina, Mario, additional, and Bianucci, Giovanni, additional

Published
2021
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48. Taphonomy of a Panopea Ménard de la Groye, 1807 shell bed from the pisco formation (Miocene, Peru)

Author

BOSIO, Giulia, BRACCHI, Valentina A., MALINVERNO, Elisa, COLLARETA, Alberto, COLETTI, Giovanni, GIONCADA, Anna, KOČÍ, Tomáš, DI CELMA, Claudio, BIANUCCI, Giovanni, and BASSO, Daniela

Subjects
East Pisco Basin, Fossil geoduck, Paleontology, Biostratinomy, Diagenesis, Dolomite, Encrusters, Geology
Abstract

Invertebrate taphonomy can provide significant information about the post-mortem processes that affected the fossil record. In the East Pisco Basin of southern Peru, a Panopea Ménard de la Groye, 1807 shell bed was found in the upper Miocene strata of the Pisco Formation, hinting at a peculiar biostratinomic and diagenetic history. This bed contains abundant invertebrate fossil molds cemented by dolomite. The specimens of the deep infaunal bivalve, Panopea sp., occur together with bivalves representative of shallow infaunal species (Trachycardium sp. and Dosinia ponderosa [Gray, 1838]) and balanid barnacles, which are sessile encrusters. The Panopea specimens host compound molds evidencing an abundant encrusting fauna, including serpulids, ?foraminifera, bryozoans, and barnacles that colonized the inner surfaces of the valves before their final burial. We hypothesize that short-term, storm-related processes exhumed the living bivalves, resulting in a sedimentological concentration of relatively well-preserved shells. After the death of the exhumed bivalves, the inner surfaces of the articulated Panopea shells, representing hard-substratal, sheltered environments on an otherwise unstable sandy seafloor (i.e., “benthic islands”), were colonized by different encrusting organisms. Following the final burial, dolomite precipitated, cementing the sediment infill of the valves. Lastly, a decrease of pH occurred at the sulfate reduction-methanogenesis boundary, inducing the dissolution of the shell carbonate.

Published
2021

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

Author

Bosio, Giulia, Bianucci, Giovanni, Collareta, Alberto, Landini, Walter, Di Celma, Claudio Nicola, Bosio, G, Bianucci, G, Collareta, A, Landini, W, and DI CELMA, C

Subjects
87Sr/86Sr, strontium isotopes, bioapatite, shark teeth, Chilcatay Formation, Miocene
Abstract

As other marine minerals, phosphates - and in particular bioapatite - incorporate Sr from seawater during formation (Staudigel et al., 1985). Due to long-term variations in the relative abundance of Sr isotopes in the global ocean, 87Sr/86Sr values can be measured in minerals and compared to calibration curves for obtaining age estimates via Strontium Isotope Stratigraphy (SIS) (McArthur et al., 2020). Although hydroxyapatite is susceptible to alteration and Sr concentration in fish teeth can change during burial and diagenesis (Martin & Scher, 2004), fossil shark teeth have been successfully used for Sr-dating, especially when enameloid is analyzed (Schmitz et al., 1997; Harrell et al., 2016). In order to test the feasibility of this method in the fish tooth-rich marine sediments of the East Pisco Basin (Peru), and aiming to date some poorly-constrained strata of this region, we analyzed the ultrastructure and composition of fossil shark teeth from the Chilcatay Formation. This Miocene formation consists of massive sandstones and basement boulders overlain by bioclastic sandstones and diatomaceous and tuffaceous siltstones (Di Celma et al., 2019). It is characterized by an abundant marine vertebrate assemblage, among which elasmobranchs are present (Landini et al., 2019). Teeth of Isurus sp., Cosmopolitodus hastalis, Isurus oxyrinchus, Megalolamna paradoxodon and Physogaleus contortus were collected from Chilcatay beds at the localities of Zamaca, Media Luna and near Cerro Colorado. Teeth were investigated through an optical microscopy and SEM. After taphonomic observations, 11 teeth underwent ICP-OES and 87Sr/86Sr analyses. Shark teeth show a compact and non-porous outer enameloid layer that is distinctly separated from the more porous and heterogeneous inner core of dentine. Ultrastructure analysis shows that the enameloid is formed by highly-ordered bundles of fluoroapatite crystallites, which are often well-preserved, whereas the dentine displays a bone-like structure showing tubuli and crystalline artefacts from diagenesis (Lübke et al., 2015). SEM-EDS mapping shows differences in distribution of Ca, P, F, and S in the enameloid and dentine, and the shiny layer is compositionally recognizable (Enax et al., 2014). ICP-OES data show Sr contents that are comparable to those of recent lamniform teeth. 87Sr/86Sr results compared to the LOESS 6 calibrated on GTS2020 (McArthur et al., 2020) give ages between 19 and 18 Ma for the Chilcatay strata at the Ica Valley localities, in agreement with radioisotopic and biostratigraphic ages (Bosio et al., 2020). At Media Luna, a locality 25 km to the west of the Rio Ica, the Chilcatay strata have here been dated for the first time, resulting in a slightly older age ranging between 22 and 20 Ma. Not least, these results strengthen the notion that the Sr-ratio of shark teeth can be successfully used for obtaining reliable age estimates through SIS.

Published
2021

50. Vertebrate Palaeoecology of the Pisco Formation (Miocene, Peru): Glimpses into the Ancient Humboldt Current Ecosystem

Author

Collareta, A, Lambert, O, Marx, F, de Muizon, C, Varas-Malca, R, Landini, W, Bosio, G, Malinverno, E, Gariboldi, K, Gioncada, A, Urbina, M, Bianucci, G, Collareta, Alberto, Lambert, Olivier, Marx, Felix G., de Muizon, Christian, Varas-Malca, Rafael, Landini, Walter, Bosio, Giulia, Malinverno, Elisa, Gariboldi, Karen, Gioncada, Anna, Urbina, Mario, Bianucci, Giovanni, Collareta, A, Lambert, O, Marx, F, de Muizon, C, Varas-Malca, R, Landini, W, Bosio, G, Malinverno, E, Gariboldi, K, Gioncada, A, Urbina, M, Bianucci, G, Collareta, Alberto, Lambert, Olivier, Marx, Felix G., de Muizon, Christian, Varas-Malca, Rafael, Landini, Walter, Bosio, Giulia, Malinverno, Elisa, Gariboldi, Karen, Gioncada, Anna, Urbina, Mario, and Bianucci, Giovanni

Abstract

The northward-flowing Humboldt Current hosts perpetually high levels of productivity along the western coast of South America. Here, we aim to elucidate the deep-time history of this globally important ecosystem based on a detailed palaeoecological analysis of the exceptionally preserved middle–upper Miocene vertebrate assemblages of the Pisco Formation of the East Pisco Basin, southern Peru. We summarise observations on hundreds of fossil whales, dolphins, seals, seabirds, turtles, crocodiles, sharks, rays, and bony fishes to reconstruct ecological relationships in the wake of the Middle Miocene Climatic Optimum, and the marked cooling that followed it. The lowermost, middle Miocene Pisco sequence (P0) and its vertebrate assemblage testify to a warm, semi-enclosed, near-shore palaeoenvironment. During the first part of the Tortonian (P1), high productivity within a prominent upwelling system supported a diverse assemblage of mesopredators, at least some of which permanently resided in the Pisco embayment and used it as a nursery or breeding/calving area. Younger portions of the Pisco Formation (P2) reveal a more open setting, with wide-ranging species like rorquals increasingly dominating the vertebrate assemblage, but also local differences reflecting distance from the coast. Like today, these ancient precursors of the modern Humboldt Current Ecosystem were based on sardines, but notably differed from their present-day equivalent in being dominated by extremely large-bodied apex predators like Livyatan melvillei and Carcharocles megalodon.

Published
2021

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