2019
DOI: 10.1098/rsos.190569
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Testing for a facultative locomotor mode in the acquisition of archosaur bipedality

Abstract: Bipedal locomotion is a defining characteristic of humans and birds and has a profound effect on how these groups interact with their environment. Results from extensive hominin research indicate that there exists an intermediate stage in hominin evolution—facultative bipedality—between obligate quadrupedality and obligate bipedality that uses both forms of locomotion. It is assumed that archosaur locomotor evolution followed this sequence of functional and hence character-state evolution. However, this assump… Show more

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Cited by 19 publications
(36 citation statements)
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References 33 publications
(47 reference statements)
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“…To assess the influence of phylogeny, the K statistic (and associated p- value) of Blomberg et al (2003) was also determined in phytools. In this study, the locomotor habit of each taxon was classified a priori based on current consensus (see also Thulborn 1990; Maidment and Barrett 2014; Grinham et al 2019 and references cited therein), as either obligate biped ( n = 33), obligate quadruped ( n = 34), or “other” ( n = 13), where the last category contained taxa hypothesized to be facultatively bipedal or taxa whose habits are controversial or previously not assessed in detail. Locomotor mode is here defined as the stance adopted during straight-line, level, quasi-steady walking.…”
Section: Methodsmentioning
confidence: 99%
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“…To assess the influence of phylogeny, the K statistic (and associated p- value) of Blomberg et al (2003) was also determined in phytools. In this study, the locomotor habit of each taxon was classified a priori based on current consensus (see also Thulborn 1990; Maidment and Barrett 2014; Grinham et al 2019 and references cited therein), as either obligate biped ( n = 33), obligate quadruped ( n = 34), or “other” ( n = 13), where the last category contained taxa hypothesized to be facultatively bipedal or taxa whose habits are controversial or previously not assessed in detail. Locomotor mode is here defined as the stance adopted during straight-line, level, quasi-steady walking.…”
Section: Methodsmentioning
confidence: 99%
“…Predicting Locomotion in Extinct Archosaurs.-A secondary aim of this study was to develop a quantitative framework that could be used to help predict locomotor habit in extinct terrestrial archosaurs, and that bipeds and quadrupeds were largely distinct in PC space has facilitated this. Although beyond the scope of the present study, this new framework has the potential to provide new rigor to assessments of locomotor evolution within Archosauria, such as the frequency and phyletic distribution of shifts from quadrupedalism to bipedalism (facultative and obligate; Kubo and Kubo 2012;McPhee et al 2018;Grinham et al 2019;Chapelle et al 2020). This would first require the generation of digital volumetric models for additional taxa, particularly those surrounding inferred transitions, which can be a nontrivial and time-intensive process.…”
Section: Taxonmentioning
confidence: 99%
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“…Our assessment of locomotor mode and body segment lengths relative to body size (in the form of SVL) is novel with respect to the existing literature surrounding reptilian facultative bipedality. Much of the existing work regarding facultative bipedality generally is based on the use of ratios which, whilst informative, does not account for the body size-related constraints of an animal (Snyder, 1962;Berman et al, 2000;Grinham, VanBuren & Norman, 2019). Updated locomotor classifications, such as for Tropicagama temporalis (Wilson & Swan, 2017) and Iguana iguana (Blob & Biewener, 2001), enable a more up-to-date assessment of the anatomy of facultative bipedality in extant squamates.…”
Section: Discussionmentioning
confidence: 99%
“…By exploring the anatomies and mechanical demands associated with this locomotor mode, we can better understand the evolution of facultative bipedality that is exhibited in multiple families throughout the clade Lepidosauria (Clemente et al, 2008). Beyond lepidosaurs, facultative bipedality is hypothesized to form an intermediate stage in the evolution of bipedality in both hominins and archosaurs (Preuschoft, 2004;Maslin, Shultz & Trauth, 2015;Grinham et al, 2019). We used this study to explore body metrics associated with facultative bipedality excluding the caudal vertebrae to increase the applicability of our results beyond the living record.…”
Section: Discussionmentioning
confidence: 99%