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    The fast and the frugal: Divergent locomotory strategies drive limb lengthening in theropod dinosaurs

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    Date
    2020-05-13
    Author
    Dececchi, T Alexander
    Mloszewska, Aleksandra M
    Holtz, Thomas R Jr
    Habib, Michael B
    Larasson, Hans C E
    Citation
    Dececchi, T.A., A.M. Mloszewska, T.R. Holtz, Jr., M.B. Habib, and H.C.E. Larsson. 2020. The fast and the frugal: divergent locomotor strategies drive limb lengthening in theropod dinosaurs. PLoS ONE 15(5): e0223698. doi: 10.1371/journal.pone.0223698
    DRUM DOI
    https://doi.org/10.13016/airu-mdlt
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    Abstract
    Limb length, cursoriality and speed have long been areas of significant interest in theropod paleobiology, since locomotory capacity, especially running ability, is critical in the pursuit of prey and to avoid becoming prey. The impact of allometry on running ability, and the limiting effect of large body size, are aspects that are traditionally overlooked. Since several different non-avian theropod lineages have each independently evolved body sizes greater than any known terrestrial carnivorous mammal, ~1000kg or more, the effect that such large mass has on movement ability and energetics is an area with significant implications for Mesozoic paleoecology. Here, using expansive datasets that incorporate several different metrics to estimate body size, limb length and running speed, we calculate the effects of allometry on running ability. We test traditional metrics used to evaluate cursoriality in non-avian theropods such as distal limb length, relative hindlimb length, and compare the energetic cost savings of relative hindlimb elongation between members of the Tyrannosauridae and more basal megacarnivores such as Allosauroidea or Ceratosauridae. We find that once the limiting effects of body size increase is incorporated there is no significant correlation to top speed between any of the commonly used metrics, including the newly suggested distal limb index (Tibia + Metatarsus/ Femur length). The data also shows a significant split between large and small bodied theropods in terms of maximizing running potential suggesting two distinct strategies for promoting limb elongation based on the organisms’ size. For small and medium sized theropods increased leg length seems to correlate with a desire to increase top speed while amongst larger taxa it corresponds more closely to energetic efficiency and reducing foraging costs. We also find, using 3D volumetric mass estimates, that the Tyrannosauridae show significant cost of transport savings compared to more basal clades, indicating reduced energy expenditures during foraging and likely reduced need for hunting forays. This suggests that amongst theropods, hindlimb evolution was not dictated by one particular strategy. Amongst smaller bodied taxa the competing pressures of being both a predator and a prey item dominant while larger ones, freed from predation pressure, seek to maximize foraging ability. We also discuss the implications both for interactions amongst specific clades and Mesozoic paleobiology and paleoecological reconstructions as a whole.
    URI
    http://hdl.handle.net/1903/28568
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    DRUM is brought to you by the University of Maryland Libraries
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