Claw morphometrics in monitor lizards: Variable substrate and habitat use correlate to shape diversity within a predator guild.

J. Sean Doody,Colin R. McHenry,David Rhind,Simon Clulow,Domenic C. D'Amore

doi:10.1002/ece3.4185

Abstract

Numerous studies investigate morphology in the context of habitat, and lizards have received particular attention. Substrate usage is often reflected in the morphology of characters associated with locomotion, and, as a result, claws have become well‐studied ecomorphological traits linking the two. The Kimberley predator guild of Western Australia consists of 10 sympatric varanid species. The purpose of this study was to quantify claw size and shape in the guild using geometric morphometrics, and determine whether these features correlated with substrate use and habitat. Each species was assigned a Habitat/substrate group based on the substrate their claws interact with in their respective habitat. Claw morphometrics were derived for both wild caught and preserved specimens from museum collections, using a 2D semilandmark analysis. Claw shape significantly separated based on Habitat/substrate group. Varanus gouldii and Varanus panoptes claws were associated with sprinting and extensive digging. Varanus mertensi claws were for shallow excavation. The remaining species’ claws reflected specialization for some form of climbing, and differed based on substrate compliance. Varanus glauerti was best adapted for climbing rough sandstone, whereas Varanus scalaris and Varanus tristis had claws ideal for puncturing wood. Phylogenetic signal also significantly influenced claw shape, with Habitat/substrate group limited to certain clades. Positive size allometry allowed for claws to cope with mass increases, and shape allometry reflected a potential size limit on climbing. Claw morphology may facilitate niche separation within this trophic guild, especially when considered with body size. As these varanids are generalist predators, morphological traits associated with locomotion may be more reliable candidates for detecting niche partitioning than those associated directly with diet.

Highlights

Ecomorphology investigates the functional design of an organism in relationship with its environment, as morphology can limit the ability for said organism to obtain resources (Wainwright, 1991)
Our results showed claw morphology was highly variable in the Kimberley monitor lizards, and correlated well with substrates found in their respective habitats as well as locomotor behaviors
Guilds are often defined by shared trophic resources (Simberloff & Dayan, 1991), and varanids typically have intersecting diets due to their opportunistic feeding strategies

Summary

| INTRODUCTION

Ecomorphology investigates the functional design of an organism in relationship with its environment, as morphology can limit the ability for said organism to obtain resources (Wainwright, 1991). Modern claws are often correlated with those of nonavian dinosaurs to extrapolate paleo-behavior (Burnham, Feduccia, Martin, & Falk, 2011; Fowler, Freedman, Scannella, & Kambic, 2011; Lautenschlager, 2014) These studies quantified claw morphology in several ways, including Euclidean distance measures, claw curvature based on triangles, outline-based morphometrics, and digital modelling (respective examples in Ribas et al, 2004; Feduccia, 1993; MacLeod & Rose, 1993; Manning et al, 2009). We clustered the varanid species into ecological groups based on the substrate their claws typically interact with within their respective habitats We measured both forelimb and hindlimb claws, and analyzed them using geometric morphometrics. We explored how claw morphology could potentially facilitate niche separation in the Kimberley monitor guild

| MATERIALS AND METHODS

| Summary and hypotheses

Findings

| CONCLUSIONS