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The Integrated Maniraptoran, Part I. The evolutionary history of maniraptoran dinosaurs was complex, perhaps messy. But all is not lost... |
May 17, 2016 Advertisement One of the dinosaur groups we talk about the most is Maniraptora, the sub-group of theropods (aka ‘predatory dinosaurs’) that includes birds as well as the significantly bird-like dromaeosaurs, troodontids and oviraptors, and the slightly less bird-like therizinosaurs and alvarezsaurs. Excepting birds, all of these groups perished during Cretaceous times. A maniraptoran montage - including some of the many, many dinosaur illustrations currently showcased at the Tet Zoo patreon project and created for use in my in-prep textbook (for more, click here). Dammit, these illustrations just don't work at small size and low res.If you’re at all familiar with the world of dinosaur research, you’ll know that an enormous number of new fossil maniraptoran species have been described within recent years. They’re not all from China. Furthermore, a large number of studies have appeared in which authors have discussed the probable behaviour, ecology and lifestyle of given non-bird maniraptoran groups, and have discerned and identified a large number of evolutionary trends and tendencies within the group. There are hypotheses that posit shifts in diet, ecology and evolutionary tempo (Garner et al. 1999, Zanno & Makovicky 2011, Benson et al. 2014, Brusatte et al. 2014), those that identify long-term trends in body size (Lee et al. 2014), those on changes in limb proportions and tail size and length (Allen et al. 2013), those that examine the evolution of aerial behaviour (Dyke et al. 2013, Foth et al. 2014) and the possibility that it evolved on several occasions, those that posit the apparent loss of aerial behaviour (Paul 1988, 2002, Cau et al. 2015), those linking anatomical changes with nesting behaviour (Hopp & Orsen 2004), those that link the evolution and distribution of complex feathers and bony crests with sexual selection (Hone et al. 2011), and so on. Maniraptorans include the smallest of theropods, but they represent the 'end members' of a long and continuous trend in size reduction among theropods as a whole. This chart, depicting size reduction over the course of theropod history, is from Lee et al. (2014).In fact, there have been so many studies on the evolutionary trends and tendencies within this group that it might seem that virtually every study proposes an alternative view of the group’s evolutionary history: that numerous different driving events or behavioural scenarios have been put forward as alternative, competing models of maniraptoran evolution. The most familiar non-bird maniraptorans were jackal- and wolf-sized predators like Deinonychus, shown at left with an unfortunate ornithischian (image by Emily Willoughby, CC BY-SA 3.0). An elongate, tridactyl hand with recurved claws is typical for the group: the image at right shows a Deinonychus hand, the thumb being at the bottom (image by James St. John, CC BY 2.0).What I want to show in this series of articles is that this isn’t true at all, and that – while things do indeed seem to have been complex – they’re no more complex than they are for any other group of animals, nor is there any major insurmountable conflict as goes the scenarios or driving events that have been proposed, nor are the different evolutionary trends that have been proposed at all in conflict when it comes to the overall pattern that we can discern. Let’s begin… Maniraptoran origins and affinities. Let’s say to begin with that maniraptorans are deeply nested within coelurosaurian theropods, and there’s compelling character support putting them close to tyrannosauroids, ornithomimosaurs (ostrich dinosaurs), Ornitholestes and compsognathids. Compsognathids - this is the famous Compsognathus longipes specimen from Solnhofen - were evidently close to maniraptoran ancestry. Compsognathids were mostly small (less than 1.5 m long), long-tailed, speedy generalists, though some reached a respectable size (2.5 m or so). Image by Balista, CC BY-SA 3.0.Which of those various groups are the closest relatives of maniraptorans varies from one study to the next, and indeed authors have sometimes (unwisely, in my view) expanded our concept of Maniraptora such that tyrannosauroids, Ornitholestes and/or compsognathids have sometimes been included. Those details aren’t too important here: the important point is that maniraptorans emerged from among small or mid-sized (ancestral size = 1-2 m, 10-20 kg; Lee et al. 2014), predatory coelurosaurs with a filamentous integument, no convincing indication of complex, pennaceous feathers, and with a dentition, skull and limb anatomy suggestive of a generalised predatory lifestyle that involved the eating of small animals. Maniraptorans evolved from coelurosaurs similar to Ornitholestes here (though Ornitholestes itself is too young, geologically, to be anything like the actual ancestor). Photo by Venture Vancouver, CC BY-SA 2.0.Ok, part II coming soon. For previous Tet Zoo articles on Mesozoic maniraptorans and related dinosaur groups, see… Long and Schouten’s Feathered Dinosaurs, a review Refs - - Allen, V., Bates, K. T., Li, Z. & Hutchinson, J. R. 2013. Linking the evolution of body shape and locomotor biomechanics in bird-line archosaurs. Nature 497, 104-107. Benson, R. B. J., Campione, N. E., Carrano, M. T., Mannion, P. D., Sullivan, C. Upchurch, P. & Evans, D. C. 2014. Rates of dinosaur body mass evolution indicate 170 million years of sustained ecological innovation on the avian stem lineage. PLoS Biol 12 (5): e1001853 Brusatte, S. L., Lloyd, G. T., Wang, S. C. & Norell, M. A. 2014. Gradual assembly of avian body plan culminated in rapid rates of evolution across the dinosaur-bird transition. Current Biology 24, 2386-2392. Cau, A., Brougham, T. & Naish, D. 2015. The phylogenetic affinities of the bizarre Late Cretaceous Romanian theropod Balaur bondoc (Dinosauria, Maniraptora): dromaeosaurid or flightless bird? PeerJ3: e1032. Dyke, G., de Kat, R., Palmer, C., van der Kindere, J., Naish, D. & Ganapathisubramani, B. 2013. Aerodynamic performance of the feathered dinosaur Microraptor and the evolution of feathered flight. Nature Communications 4, Article number: 2489. Foth, C., Tischlinger, H. & Rauhut, O. W. M. 2014. New specimen of Archaeopteryx provides insights into the evolution of pennaceous feathers. Nature 511, 79-82. Hone, D. W. E., Naish, D. & Cuthill, I. C. 2011. Does mutual sexual selection explain the evolution of head crests in pterosaurs and dinosaurs? Lethaia 45, 139-156. Garner, J. P., Taylor, G. K. & Thomas, A. L. R. 1999. On the origins of birds: the sequence of character acquisition in the evolution of avian flight. Proceedings of the Royal Society of London B 266, 1259-1266. Hopp, T. P. & Orsen, M. J. 2004. Dinosaur brooding behavior and the origin of flight feathers. In Currie, P. J., Koppelhus, E. B., Shugar, M. A. & Wright, J. L. (eds) Feathered Dragons. Studies on the Transition from Dinosaurs to Birds. Indiana University Press (Bloomington & Indianapolis), pp. 234-250. Lee, M. S. Y., Cau, A., Naish, D. & Dyke, G. J. 2014. Sustained miniaturization and anatomical innovation in the dinosaurian ancestors of birds. Science 345, 562-565. Paul, G. S. 1988. Predatory Dinosaurs of the World. Simon & Schuster, New York. Paul, G. S. 2002. Dinosaurs of the Air: the Evolution and Loss of Flight in Dinosaurs and Birds. Johns Hopkins University Press, Baltimore. Zanno, L. E. & Makovicky, P. J. 2011. Herbivorous ecomorphology and specialization patterns in theropod dinosaur evolution. Proceedings of the National Academy of Sciences 108, 232-237. http://blogs.scientificamerican.com/tetrapod-zoology/the-integrated-maniraptoran-part-i/ |
