Loredana Macaluso scite author profile

The osteology of European urodeles was studied extensively in the past, but comparative analyses of isolated bones are rare, despite being the most useful tool for the identification of fossil remains. The present work is focused on the most robust skeletal elements (therefore, common in the fossil record: otic–occipitum complexes and vertebrae) and provides taxonomically significant diagnostic characters at the genus level for European genera of urodeles, including some taxa whose osteology was poorly known (e.g. Euproctus and Calotriton). Characters subject to wide variability are identified, and their use is discouraged for diagnoses of extinct species. A selection of diagnostic characters is used herein to build an identification key for each studied skeletal element and for a phylogenetic analysis to understand whether these osteological elements can convey a genuine signal. The analysis under Bayesian inference resulted in a well-supported Salamandridae clade and Pleurodelinae tribe. Salamandrina was recovered as part of the Pleurodelinae, in agreement with previous morphological phylogenetic analyses, but in contrast to the conclusion of molecular studies.

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A new proteid salamander (Urodela, Proteidae) from the middle Miocene of Hambach (Germany) and implications for the evolution of the family

Macaluso

Villa

Mörs

2021

Palaeontology

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Members of the urodele family Proteidae currently account for eight extant species within two genera and at least four extinct species within three genera. The clade has a clear disjunct geographical range, with the extinct Paranecturus and the extant Necturus in North America and the extinct Mioproteus and the extant Proteus in Europe and Asia. A recent phylogenetic analysis supported a Eurasian clade including both fossil and living species found east of the Atlantic Ocean. However, the finding of a new proteid salamander, herein named Euronecturus grogu, from the Miocene of western Germany sheds new light on the evolution of this family, challenging the idea of all Eurasian members of the group deriving from a single lineage separated from the North American ones at least prior to the Oligocene. This new proteid taxon is based on five isolated atlases found in late Orleanian (MN 5) sediments in Hambach 6C, and displays features that are unknown in any other proteid, such as the presence of secondary dorsal crests, small and posteriorly-directed postzygapophyses, and (in at least some specimens) a wide and deep ventral fossa between the anterior cotyles. A phylogenetic analysis recovered the new taxon in an earlybranching position within Proteidae, sister to all other proteids but the late Maastrichtian Paranecturus. It thus suggests the presence in Europe of a second proteid lineage, currently known only in the middle Miocene, that appears unrelated to the Mioproteus-Proteus clade.

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Palaeofloral and stratigraphic context of a new fossil forest from the Pliocene of NW Italy

Macaluso

Martinetto

Vigna³

et al. 2018

Review of Palaeobotany and Palynology

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Evolutionary changes in pubic orientation in dinosaurs are more strongly correlated with the ventilation system than with herbivory

Macaluso

Tschopp

2018

Palaeontology

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Among dinosaurs, the pubis has convergently retroverted four times in Maniraptora (Theropoda) and once in Ornithischia. Although a clear correlation has not been demonstrated, it has been previously proposed that two traits were related to pubic retroversion: the reduced importance of cuirassal ventilation, and a herbivorous diet. Here, we analyse the possible influence of these traits on pubis orientation. Cuirassal ventilation was plesiomorphically present as an accessory ventilation mechanism in Dinosauria and was powered by the M. ischiotruncus, which was probably connected to a propubic pelvis. Cuirassal ventilation was reduced in both Ornithischia and Maniraptora, some of which also evolved herbivory. According to our results, cuirassal ventilation is more strongly correlated with pubic orientation than herbivory. The retroversion of the pubis during the evolution of birds resulted in major changes in the musculature of the tail. These changes increased the efficiency of the pubocaudalis muscles, which enhanced the birds’ capability for take‐off from the ground. The release of the evolutionary constraint on pubic orientation through changes in the ventilatory system can therefore be considered to be an important step in bird evolution.

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