Parallel evolutionary trajectories underlie the origin of giant suspension-feeding whales and bony fishes

Giant suspension feeders such as mysticete whales, basking and whale sharks, and the extinct (indicated by '†') †pachycormiform teleosts are conspicuous members of modern and fossil marine vertebrate faunas. Whether convergent anatomical features common to these clades arose along similar...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2012-03, Vol.279 (1730), p.944-951
Main Author: Friedman, Matt
Format: Article
Language:English
Subjects:
Actinopterygii
Animals
Bones
Cetacea
Convergent Evolution
Dentition
Evolution
Feeding Behavior
Filter Feeding
fish
Fishes - anatomy & histology
Fishes - classification
Fishes - physiology
Fossils
Jaw
Jaw - anatomy & histology
Marine
Marine fishes
Models, Biological
Mysticetes
Mysticeti
Pectorals
Phylogeny
Pisces
Planktivory
Posidonia
Rhincodon typus
shale
Skull
Stem Teleost
Taxa
teeth
Teleostei
Vertebrates
Whales
Whales - anatomy & histology
Whales - classification
Whales - physiology
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Summary:Giant suspension feeders such as mysticete whales, basking and whale sharks, and the extinct (indicated by '†') †pachycormiform teleosts are conspicuous members of modern and fossil marine vertebrate faunas. Whether convergent anatomical features common to these clades arose along similar evolutionary pathways has remained unclear because of a lack of information surrounding the origins of all groups of large-bodied suspension feeders apart from baleen whales. New investigation reveals that the enigmatic ray-finned fish †Ohmdenia, from the Lower Jurassic (Toarcian, 183.0–175.6 Ma) Posidonia Shale Lagerstätte, represents the immediate sister group of edentulous †pachycormiforms, the longest lived radiation of large vertebrate suspension feeders. †Ohmdenia bisects the long morphological branch leading to suspension-feeding †pachycormiforms, providing information on the sequence of anatomical transformations preceding this major ecological shift that can be compared to changes associated with the origin of modern mysticetes. Similarities include initial modifications to jaw geometry associated with the reduction of dentition, followed by the loss of teeth. The evolution of largest body sizes within both radiations occurs only after the apparent onset of microphagy. Comparing the fit of contrasting evolutionary models to functionally relevant morphological measurements for whales and fpachycormiform fishes reveals strong support for a common adaptive peak shared by suspension-feeding members of both clades.
ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.2011.1381