, 2004, 2010; Bonduriansky, 2007), resulting in larger animals ca

, 2004, 2010; Bonduriansky, 2007), resulting in larger animals carrying much larger traits relative to body size than do smaller animals. Positive intraspecific allometry of exaggerated traits has recently been proposed as evidence for sexual selection

operating on the anterior spines of trilobites (Knell & Fortey, 2005) and the crests of Pteranodon (Tomkins et al., 2010). Thus, although other factors BTK inhibitor ic50 (e.g. phylogenetic history, biomechanics, morphological integration) could conceivably yield similar patterns, evidence of strong positive allometry is consistent with the mate competition hypothesis and appears to run counter to the species recognition hypothesis (see Tomkins et al., 2010, for additional

discussion). Among the best documented examples of exaggerated structures within Dinosauria are the crests of hadrosaurs (Dodson, 1975; Evans, 2010). A summary of allometric slopes calculated by Evans (2010) indicates strong positive allometry in the bony crests of a variety of hadrosaurid taxa. Analysis of crest height (variable 9; relative to basal SAHA HDAC skull length) for a sample (N=7) of skulls pertaining to a single species, Hypacrosaurus altispinus, resulted in a strongly and significantly positive intraspecific allometric coefficient (reduced major axis slope of 4.97; 95% CIs 3.40–6.54). Although it is conceivable MCE公司 that this conclusion results from faulty taxonomy (two or more taxa mistakenly placed within a single species, artificially inflating variation), we see no evidence to support such a claim, and numerous other taxa, among ceratopsids (Sampson, Ryan & Tanke, 1997; Dodson et al., 2004) as well as hadrosaurids, appear to exhibit similarly high levels of variation in their exaggerated

structures. Assuming that the allometric slope for H. altispinus documented by Evans (2010) is reasonably accurate, it is steeper even than the majority of those calculated for modern sexually selected structures (Tomkins et al., 2010). For the reasons cited above, the presence of strong positive allometry in the exaggerated structures of dinosaurs constitutes strong evidence against a species recognition function and is fully consistent with a mate competition function. If exaggerated structures functioned to facilitate species recognition relating to behaviours other than mating (e.g. herding, parental care), one might further predict that these features would show species-specific development as early in ontogeny as possible. Instead, studies of ontogenetic variation of exaggerated structures in at least hadrosaurs (Dodson, 1975; Evans, 2010) and ceratopsids (Sampson et al., 1997; Dodson et al., 2004) demonstrate that these features underwent delayed development, exhibiting the adult condition at or near the onset of adult body size.

Leave a Reply

Your email address will not be published. Required fields are marked *


You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>