Peter Pogoda scite author profile

Extant salamanders (Caudata) are unique among lissamphibians in the ability of some lineages, species or populations to reach sexual maturity before metamorphosis, a life-history strategy traditionally termed neoteny (Hall, 2015; Kollmann, 1885; Rosenkilde & Ussing, 1996; Safi et al., 2004). In such lineages, adults resemble larvae of other species, or at least retain certain larval traits (Smirnov, Vassilieva, & Merkulova, 2008), a pattern referred to as paedomorphosis (Gould, 1977; Alberch et al., 1989). Neoteny is not only common among phylogenetically basal salamander lineages such as the Sirenidae but is also found in derived salamanders, that is the Proteidae, Ambystomatidae, Salamandridae and Plethodontidae (Semlitsch, 1990; Zhang & Wake, 2009, Irissari et al., 2017). As a life-history strategy, neoteny is not exclusive to caudates, but probably also evolved in some ancient Palaeozoic relatives of lissamphibians, the branchiosaurid temnospondyls (Boy, 1971; Sanchez, Ricqles, Schoch, & Steyer, 2010). Different versions of paedomorphosis accompany neoteny in caudates (e.g.

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Flesh and bone: An integrative approach towards sexual size dimorphism of a terrestrial salamander (genus Salamandrina)

Pogoda

Kupfer

2018

Journal of Morphology

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Males and females face different selection pressures due to a sexually biased investment into reproduction. This often results in different morphologies. Sexual size dimorphisms (SSD) can give us important hints on the evolution and biology of a species. Salamanders are a perfectly suited system for investigating SSD, including a diversity of reproductive modes and behaviors, and patterns of SSD combined with life history traits in a phylogenetic context help us to understand the evolution of these processes. Because spectacled salamanders (genus Salamandrina) are the phylogenetically most basal taxon of the Salamandridae, they play a key role in reconstructing the evolutionary pattern of SSD. Combining extensive external and skeletal measurements of the cranium, limbs, and the pelvic girdle using high-resolution micro Computer Tomography (μCT) yielded an integrative analysis of expressed SSD of morphology and osteology of Salamandrina perspicillata. Multivariate analysis of external characters showed that males generally had larger cloacae, heads, and limbs relative to body size, while females had larger trunks. Analysis of osteology confirmed this pattern but also revealed new dimorphic characters in the cranium and the pelvic girdle. Dimorphic characters in external morphology and osteology are likely linked to the different reproductive roles of the sexes and support sexual rather than ecological selection as the primary force acting on the phenotype of the phylogenetically basal salamandrids.

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Osteology of the Italian endemic spectacled salamanders, Salamandrina spp. (Amphibia, Urodela, Salamandridae): selected skeletal elements for palaeontological investigations

Macaluso

Villa

Pitruzzella

et al. 2020

Journal of Morphology

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Salamandrina perspicillata, from Northern and Central Italy, and Salamandrina terdigitata, from Southern Italy, represent a unique case of endemism among the amphibians of Europe. Some efforts were made to study the biology and ecology of these species, but only few studies focused on their comparative osteology. In particular, detailed descriptions of isolated skeletal elements and comparisons with other European urodeles are not available in literature hindering the identification of their fossils that testify for an ancient much broader range. The correct identification of fossil remains, mostly based on careful osteological descriptions, is fundamental to study the evolution of the range of this genus through time and the origin of the current endemic condition. This work is focused on the description of selected skeletal elements (occipito-otic complex, limb bones, atlas, trunk, sacral, caudosacral and caudal vertebrae) of dry-prepared skeletons and CT-scans of wet preserved specimens, which are the most common in the fossil record. We provide osteological comparison of Salamandrina with other genera of Europe, yielding diagnostic characters which allow the identification of fossils at a generic level. No significant differences between the two species S. perspicillata and S. terdigitata were found in the described skeletal elements, thus, the identification of skeletal elements at the species level is, at the moment, impossible.

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High osteological variation in a terrestrial salamander (genus Salamandrina)

Pogoda

Kupfer

2019

Zoologischer Anzeiger

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Cranial shape evolution of extant and fossil crocodile newts and its relation to reproduction and ecology

et al. 2020

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The diversity of the vertebrate cranial shape of phylogenetically related taxa allows conclusions on ecology and life history. As pleurodeline newts (the genera Echinotriton , Pleurodeles and Tylototriton ) have polymorphic reproductive modes, they are highly suitable for following cranial shape evolution in relation to reproduction and environment. We investigated interspecific differences externally and differences in the cranial shape of pleurodeline newts via two‐dimensional geometric morphometrics. Our analyses also included the closely related but extinct genus Chelotriton to better follow the evolutionary history of cranial shape. Pleurodeles was morphologically distinct in relation to other phylogenetically basal salamanders. The subgenera within Tylototriton ( Tylototriton and Yaotriton ) were well separated in morphospace, whereas Echinotriton resembled the subgenus Yaotriton more than Tylototriton . Oviposition site choice correlated with phylogeny and morphology. Only the mating mode, with a random distribution along the phylogenetic tree, separated crocodile newts into two morphologically distinct groups. Extinct Chelotriton likely represented several species and were morphologically and ecologically more similar to Echinotriton and Yaotriton than to Tylototriton subgenera. Our data also provide the first comprehensive morphological support for the molecular phylogeny of pleurodeline newts.

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Peter Pogoda

The impact of metamorphosis on the cranial osteology of giant salamanders of the genus Dicamptodon

Flesh and bone: An integrative approach towards sexual size dimorphism of a terrestrial salamander (genus Salamandrina)

Osteology of the Italian endemic spectacled salamanders, Salamandrina spp. (Amphibia, Urodela, Salamandridae): selected skeletal elements for palaeontological investigations

High osteological variation in a terrestrial salamander (genus Salamandrina)

Cranial shape evolution of extant and fossil crocodile newts and its relation to reproduction and ecology

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