Developmental plasticity and the origin of tetrapods
| Autor: | Hans C. E. Larsson, Emily M. Standen, Trina Y. Du |
|---|---|
| Rok vydání: | 2014 |
| Předmět: |
Male
Time Factors Walking Environment Bone and Bones stomatognathic system Extant taxon Swim bladder Tetrapod (structure) Animals Phylogeny Swimming Phenotypic plasticity Multidisciplinary biology Muscles Fishes Extremities Terrestrial locomotion Anatomy biology.organism_classification Biological Evolution Biomechanical Phenomena Polypterus senegalus body regions Evolutionary biology Models Animal Animal Fins Developmental plasticity Female Polypterus Locomotion |
| Zdroj: | Nature. 513:54-58 |
| ISSN: | 1476-4687 0028-0836 |
| DOI: | 10.1038/nature13708 |
| Popis: | The origin of tetrapods from their fish antecedents, approximately 400 million years ago, was coupled with the origin of terrestrial locomotion and the evolution of supporting limbs. Polypterus is a member of the basal-most group of ray-finned fish (actinopterygians) and has many plesiomorphic morphologies that are comparable to elpistostegid fishes, which are stem tetrapods. Polypterus therefore serves as an extant analogue of stem tetrapods, allowing us to examine how developmental plasticity affects the ‘terrestrialization’ of fish. We measured the developmental plasticity of anatomical and biomechanical responses in Polypterus reared on land. Here we show the remarkable correspondence between the environmentally induced phenotypes of terrestrialized Polypterus and the ancient anatomical changes in stem tetrapods, and we provide insight into stem tetrapod behavioural evolution. Our results raise the possibility that environmentally induced developmental plasticity facilitated the origin of the terrestrial traits that led to tetrapods. The most primitive extant bony fish, Polypterus, exhibits adaptive plasticity for life on land when raised on land rather than in water, suggesting that environmentally induced phenotypic plasticity might have facilitated the macroevolutionary transition to life on land. Bichirs (genus Polypterus) are primitive ray-finned fish found in Africa — and sometimes in home aquaria — that have functional lungs derived from the swim bladder and powerful pectoral fins that provide support during occasional forays ashore. This study takes Polypterus senegalus as a model for the immediate ancestors of tetrapods and quantifies the anatomical and behavioural changes that occur when these fish are 'terrestrialized'. When raised on land, bichirs lift their heads higher off the ground, deploy their forelimbs closer to the midline and slip around much less often than those raised underwater and prompted to walk ashore for the first time. These observations, together with changes in bone structure and musculature, suggest that some of the postural changes seen in the earliest tetrapods, or rather their immediate antecedents, might have been made in response to the environment and assimilated by developmental plasticity. |
| Databáze: | OpenAIRE |
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