Abstract
Morphological responses of nonmammalian herbivores to external ecological drivers have not been quantified over extended timescales. Herbivorous nonavian dinosaurs are an ideal group to test for such responses, because they dominated terrestrial ecosystems for more than 155 Myr and included the largest herbivores that ever existed. The radiation of dinosaurs was punctuated by several ecologically important events, including extinctions at the Triassic/Jurassic (Tr/J) and Jurassic/Cretaceous (J/K) boundaries, the decline of cycadophytes, and the origin of angiosperms, all of which may have had profound consequences for herbivore communities. Here we present the first analysis of morphological and biomechanical disparity for sauropodomorph and ornithischian dinosaurs in order to investigate patterns of jaw shape and function through time. We find that morphological and biomechanical mandibular disparity are decoupled: mandibular shape disparity follows taxonomic diversity, with a steady increase through the Mesozoic. By contrast, biomechanical disparity builds to a peak in the Late Jurassic that corresponds to increased functional variation among sauropods. The reduction in biomechanical disparity following this peak coincides with the J/K extinction, the associated loss of sauropod and stegosaur diversity, and the decline of cycadophytes. We find no specific correspondence between biomechanical disparity and the proliferation of angiosperms. Continual ecological and functional replacement of pre-existing taxa accounts for disparity patterns through much of the Cretaceous, with the exception of several unique groups, such as psittacosaurids that are never replaced in their biomechanical or morphological profiles.
Highlights
Sauropodomorph and ornithischian dinosaurs were the foremost herbivorous terrestrial vertebrates of the Mesozoic Era in terms of species richness, abundance, and functional diversity (Weishampel and Norman 1989; Sereno 1999; Weishampel et al 2004; Barrett 2014)
Biomechanical Morphospace Occupation.—Our results demonstrate that sauropodomorph and ornithischian taxa occupy significantly different regions of biomechanical morphospace (p < 0.01; Figs. 2, 3; Table 2)
Our data demonstrate that there was no significant increase in the biomechanical disparity of the feeding apparatus of either major herbivorous dinosaur clade that was coincident with the proliferation of angiosperms (Fig. 7)
Summary
Sauropodomorph and ornithischian dinosaurs were the foremost herbivorous terrestrial vertebrates of the Mesozoic Era in terms of species richness, abundance, and functional diversity (Weishampel and Norman 1989; Sereno 1999; Weishampel et al 2004; Barrett 2014) Both groups survived two extinction events— the end-Triassic mass extinction (Tr/J) and a smaller extinction at the Jurassic/Cretaceous boundary (J/K)—and persisted through several episodes of floral turnover, including the decline of cycadophytes and the proliferation of angiosperms (Sereno 1997; Barrett and Willis 2001; Lloyd et al 2008; Butler et al 2009b). With respect to dinosaurs the J/K extinction has been studied in terms of diversity analyses (e.g., Upchurch and Barrett 2005; Barrett et al 2009; Butler et al 2010, 2011; Upchurch et al 2011), and the potential ecological consequences of DownloadedCfroommmhtotpnss://Awwttwri.bcuamtiobnridlgicee.onrcge/co(hret.tpIP:/a/ddcrreesast:iv3.e8c7o.2m2.m15o1n, osn.o0r2g/Nloicve2n0s2e1sa/tb1y1/:242.:00/6,),suwbjheiccthtoptheermCaitmsburindgreesCtroircetetdermres-osef ,usdei,satrviabiluabtiloena,t https://www.acnamdbrreidpgreo.dorugc/tcioorne/itnermansy. hmttpesd:/i/udmoi.,oprgr/o1v0.i1d0e1d7/tphaeb.o2r0i1g6i.n3a1l work is properly cited
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