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Landlubbers to leviathans: evolution of swimming in mosasaurine mosasaurs

Published online by Cambridge University Press:  08 April 2016

Johan Lindgren
Affiliation:
Department of Earth and Ecosystem Sciences, Lund University, Sölvegatan 12, SE-223 62 Lund, Sweden. E-mail: johan.lindgren@geol.lu.se
Michael J. Polcyn
Affiliation:
Department of Earth Sciences, Southern Methodist University, 3225 Daniel Avenue, Dallas, Texas 75275. E-mail: mpolcyn@smu.edu
Bruce A. Young
Affiliation:
Department of Physical Therapy, University of Massachusetts Lowell, 3 Solomont Way, Lowell, Massachusetts 01854. E-mail: bruce_young@uml.edu

Abstract

Incremental stages of major evolutionary transitions within a single animal lineage are rarely observed in the fossil record. However, the extraordinarily complete sequence of well preserved material spanning the 27-Myr existence of the marine squamate subfamily Mosasaurinae provides a unique exception. By comparison with extant and extinct analogs, the tail morphology of four mosasaurine genera is examined, revealing a pattern of evolution that begins with the generalized varanoid anatomy and culminates in a high-aspect-ratio fin, similar to that of sharks. However, unlike the epicercal caudal fluke of selachians in which the tail bends dorsocaudally, derived mosasaurs develop a hypocercal tail with a ventrocaudal bend. Progressive caudal regionalization, reduced intervertebral mobility, increased tail depth due to a marked downturn of the posterior caudal segment, and the development of finlike paired appendages reveal a pattern of adaptation toward an optimized marine existence. This change in morphology reflects a transition from anguilliform or sub-carangiform locomotion to carangiform locomotion, and indicates a progressive shift from nearshore dwellers to pelagic cruisers—a change in foraging habitat independently corroborated by paleobiogeographic, stable isotope, osteohistological, and paleopathological data. Evolutionary patterns similar to those observed in mosasaurine mosasaurs are seen in other secondarily aquatically adapted amniotes, notably metriorhynchid crocodyliforms, cetaceans, and ichthyosaurs, and may be explained by developmental modularity governing the observed phenotypic expression.

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Copyright © The Paleontological Society 

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