In this article, we are going to thoroughly explore and analyze Rhipidistia. From its origins to its evolution in today's society, Rhipidistia has played a crucial role in various aspects of daily life. Over the years, Rhipidistia has been the subject of debate, study and even admiration, generating a wide variety of opinions and perspectives on its meaning and relevance. Through this research, we aim to shed light on the different aspects of Rhipidistia, examining its impact on culture, politics, science and other areas of interest. Thus, we hope to provide a comprehensive and insightful view on Rhipidistia, in order to enrich the understanding and appreciation of this topic.
Rhipidistians | |
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Diversity of Rhipidistia | |
Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Clade: | Sarcopterygii |
Clade: | Rhipidistia |
Subgroups | |
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Rhipidistia, also known as Dipnotetrapodomorpha, is a clade of lobe-finned fishes which includes the tetrapods and lungfishes. Rhipidistia formerly referred to a subgroup of Sarcopterygii consisting of the Porolepiformes and Osteolepiformes, a definition that is now obsolete. However, as cladistic understanding of the vertebrates has improved over the last few decades, a monophyletic Rhipidistia is now understood to include the whole of Tetrapoda and the lungfishes.
Rhipidistia includes Porolepiformes and Dipnoi. Extensive fossilization of lungfishes has contributed to many evolutionary studies of this group. Evolution of autostylic jaw suspension, in which the palatoquadrate bone fuses to the cranium, and the lymph pumping "lymph heart" (later lost in mammals and flying birds), are unique to this group. Another feature shared by lungfish and tetrapods is the divided atrium.
The precise time at which the choana of tetrapods evolved is debated, with some considering early rhipidistians as the first choanates. The feature is also present in modern lungfish but is probably a case of convergent evolution. The basal stem-lungfish Diabolepis did not possess it. Instead, it had four nostrils (two anterior and two posterior) like most fish. However, its posterior nares are very close to the lip, meaning a ventral 'displacement' of the posterior nostril can be considered a synapomorphy of the lungfish-tetrapod clade. The complete choana then seems to have developed independently in the two surviving clades.
The word "Rhipidistia" is from Ancient Greek: ῥιπίδιον, romanized: rhipídion, lit. 'small bellows'.
The word "Dipnotetrapodomorpha" is from Greek: δίπνοος, romanized: dipnoos, lit. 'with two breathing structures' (from δι- meaning "twice", and πνοή meaning "breathing, breath"); from Ancient Greek: τετρα-, romanized: tetra-, lit. 'four', the combining form of the numeral τέτταρες (tettares); from Ancient Greek: -ποδ-, romanized: -pod-, the combining form of πούς (pous) meaning "foot"; and from Ancient Greek: -μορϕος, romanized: -morphos, the combining form of μορϕή (morph) meaning "physical shape".
The cladogram presented below is based on studies compiled by Philippe Janvier and others for the Tree of Life Web Project, and Swartz 2012.
Sarcopterygii |
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