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An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests

Sauropod dinosaurs are a group of herbivorous dinosaurs which exceeded all other terrestrial vertebrates in mean and maximal body size. Sauropod dinosaurs were also the most successful and long-lived herbivorous tetrapod clade, but no abiological factors such as global environmental parameters condu...

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Autor principal: Sander, P. Martin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3812984/
https://www.ncbi.nlm.nih.gov/pubmed/24205267
http://dx.doi.org/10.1371/journal.pone.0078573
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author Sander, P. Martin
author_facet Sander, P. Martin
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description Sauropod dinosaurs are a group of herbivorous dinosaurs which exceeded all other terrestrial vertebrates in mean and maximal body size. Sauropod dinosaurs were also the most successful and long-lived herbivorous tetrapod clade, but no abiological factors such as global environmental parameters conducive to their gigantism can be identified. These facts justify major efforts by evolutionary biologists and paleontologists to understand sauropods as living animals and to explain their evolutionary success and uniquely gigantic body size. Contributions to this research program have come from many fields and can be synthesized into a biological evolutionary cascade model of sauropod dinosaur gigantism (sauropod gigantism ECM). This review focuses on the sauropod gigantism ECM, providing an updated version based on the contributions to the PLoS ONE sauropod gigantism collection and on other very recent published evidence. The model consist of five separate evolutionary cascades (“Reproduction”, “Feeding”, “Head and neck”, “Avian-style lung”, and “Metabolism”). Each cascade starts with observed or inferred basal traits that either may be plesiomorphic or derived at the level of Sauropoda. Each trait confers hypothetical selective advantages which permit the evolution of the next trait. Feedback loops in the ECM consist of selective advantages originating from traits higher in the cascades but affecting lower traits. All cascades end in the trait “Very high body mass”. Each cascade is linked to at least one other cascade. Important plesiomorphic traits of sauropod dinosaurs that entered the model were ovipary as well as no mastication of food. Important evolutionary innovations (derived traits) were an avian-style respiratory system and an elevated basal metabolic rate. Comparison with other tetrapod lineages identifies factors limiting body size.
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spelling pubmed-38129842013-11-07 An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests Sander, P. Martin PLoS One Overview Sauropod dinosaurs are a group of herbivorous dinosaurs which exceeded all other terrestrial vertebrates in mean and maximal body size. Sauropod dinosaurs were also the most successful and long-lived herbivorous tetrapod clade, but no abiological factors such as global environmental parameters conducive to their gigantism can be identified. These facts justify major efforts by evolutionary biologists and paleontologists to understand sauropods as living animals and to explain their evolutionary success and uniquely gigantic body size. Contributions to this research program have come from many fields and can be synthesized into a biological evolutionary cascade model of sauropod dinosaur gigantism (sauropod gigantism ECM). This review focuses on the sauropod gigantism ECM, providing an updated version based on the contributions to the PLoS ONE sauropod gigantism collection and on other very recent published evidence. The model consist of five separate evolutionary cascades (“Reproduction”, “Feeding”, “Head and neck”, “Avian-style lung”, and “Metabolism”). Each cascade starts with observed or inferred basal traits that either may be plesiomorphic or derived at the level of Sauropoda. Each trait confers hypothetical selective advantages which permit the evolution of the next trait. Feedback loops in the ECM consist of selective advantages originating from traits higher in the cascades but affecting lower traits. All cascades end in the trait “Very high body mass”. Each cascade is linked to at least one other cascade. Important plesiomorphic traits of sauropod dinosaurs that entered the model were ovipary as well as no mastication of food. Important evolutionary innovations (derived traits) were an avian-style respiratory system and an elevated basal metabolic rate. Comparison with other tetrapod lineages identifies factors limiting body size. Public Library of Science 2013-10-30 /pmc/articles/PMC3812984/ /pubmed/24205267 http://dx.doi.org/10.1371/journal.pone.0078573 Text en © 2013 P http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Overview
Sander, P. Martin
An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests
title An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests
title_full An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests
title_fullStr An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests
title_full_unstemmed An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests
title_short An Evolutionary Cascade Model for Sauropod Dinosaur Gigantism - Overview, Update and Tests
title_sort evolutionary cascade model for sauropod dinosaur gigantism - overview, update and tests
topic Overview
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3812984/
https://www.ncbi.nlm.nih.gov/pubmed/24205267
http://dx.doi.org/10.1371/journal.pone.0078573
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