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Autori principali: Fischer, Valentin, Rogé, Aymeric, Cottereau, Romain, Della Giustina, Francesco, Laboury, Antoine, Scavezzoni, Isaure, MacLaren, Jamie Alexander
Natura: Artículo científico
Lingua:en
Pubblicazione: Biology letters 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/40957557/
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author Fischer, Valentin
Rogé, Aymeric
Cottereau, Romain
Della Giustina, Francesco
Laboury, Antoine
Scavezzoni, Isaure
MacLaren, Jamie Alexander
author_facet Fischer, Valentin
Rogé, Aymeric
Cottereau, Romain
Della Giustina, Francesco
Laboury, Antoine
Scavezzoni, Isaure
MacLaren, Jamie Alexander
Fischer, Valentin
Rogé, Aymeric
Cottereau, Romain
Della Giustina, Francesco
Laboury, Antoine
Scavezzoni, Isaure
MacLaren, Jamie Alexander
collection PubMed - marine biology
contents Predicting body length and assessing the shape of tail-propelled Mesozoic marine reptiles. Fischer, Valentin Rogé, Aymeric Cottereau, Romain Della Giustina, Francesco Laboury, Antoine Scavezzoni, Isaure MacLaren, Jamie Alexander Animals Reptiles Fossils Body Size Phylogeny Biological Evolution Tail Aquatic Organisms Body length is a crucial ecological predictor in vertebrates, yet total body length proxies have seldom been assessed for ancient marine top predators. Here, we test the strength of phylogenetic imputation and 23 linear measurements, sampling both broad skeletal regions and frequently fossilized elements (such as vertebral centra), in predicting the body length of the main clades of tail-propelled Mesozoic marine reptiles (Ichthyosauria, Mosasauridae and pelagic thalattosuchians). We embed this marine reptile sample within a comparative framework with raptorial cetaceans, and analyse the evolution of body proportions in these clades. We find that trunk length and centrum dimensions are strong predictors of body length, opening up the possibility to build vast datasets of body length estimations for Mesozoic marine reptiles from minimal preserved remains. We provide body length calculation equations for all traits and all clades. Proxies fared much better and often had distinct slopes when applied clade-wide rather than when applied to the global dataset. We also show that body length in Mesozoic marine reptiles is more labile than their skeletal architectures, rendering phylogenetic imputation methods less effective than skeletal proxies for assessing body lengths.
format Artículo científico
id pubmed_40957557
institution PubMed
language en
publishDate 2025
publisher Biology letters
record_format pubmed
spellingShingle Predicting body length and assessing the shape of tail-propelled Mesozoic marine reptiles.
Fischer, Valentin
Rogé, Aymeric
Cottereau, Romain
Della Giustina, Francesco
Laboury, Antoine
Scavezzoni, Isaure
MacLaren, Jamie Alexander
Animals
Reptiles
Fossils
Body Size
Phylogeny
Biological Evolution
Tail
Aquatic Organisms
Predicting body length and assessing the shape of tail-propelled Mesozoic marine reptiles. Fischer, Valentin Rogé, Aymeric Cottereau, Romain Della Giustina, Francesco Laboury, Antoine Scavezzoni, Isaure MacLaren, Jamie Alexander Animals Reptiles Fossils Body Size Phylogeny Biological Evolution Tail Aquatic Organisms Body length is a crucial ecological predictor in vertebrates, yet total body length proxies have seldom been assessed for ancient marine top predators. Here, we test the strength of phylogenetic imputation and 23 linear measurements, sampling both broad skeletal regions and frequently fossilized elements (such as vertebral centra), in predicting the body length of the main clades of tail-propelled Mesozoic marine reptiles (Ichthyosauria, Mosasauridae and pelagic thalattosuchians). We embed this marine reptile sample within a comparative framework with raptorial cetaceans, and analyse the evolution of body proportions in these clades. We find that trunk length and centrum dimensions are strong predictors of body length, opening up the possibility to build vast datasets of body length estimations for Mesozoic marine reptiles from minimal preserved remains. We provide body length calculation equations for all traits and all clades. Proxies fared much better and often had distinct slopes when applied clade-wide rather than when applied to the global dataset. We also show that body length in Mesozoic marine reptiles is more labile than their skeletal architectures, rendering phylogenetic imputation methods less effective than skeletal proxies for assessing body lengths.
title Predicting body length and assessing the shape of tail-propelled Mesozoic marine reptiles.
topic Animals
Reptiles
Fossils
Body Size
Phylogeny
Biological Evolution
Tail
Aquatic Organisms
url https://pubmed.ncbi.nlm.nih.gov/40957557/