Abstract
Variation in exposure to sex hormones during early development contributes to phenotypic plasticity in vertebrate offspring. As a proposed marker for prenatal sex hormone exposure and because of their association with various physiological and behavioral characteristics, digit ratio and/or digit length have received notable interest within the field of evolutionary ecology. However, the validity of digit measures as a proxy of prenatal sex hormone exposure is controversial and only few studies have provided direct evidence for the link between digit development and prenatal sex hormones. Here, we report morph- and sex-specific variation in digit ratio in wild painted dragon lizards (Ctenophorus pictus). Lizards expressing a yellow bib have significantly larger third-to-fourth toe ratios (3D:4D) than lizards without a bib. Males have significantly smaller 3D:4D than females. Furthermore, we show that experimental elevation of yolk testosterone significantly increases 3D:4D in hatchling painted dragon lizards, but has no influence on hatchling size. Our results provide direct and indirect evidence for the involvement of prenatal sex steroids in digit development and it is suggested that digit ratio may be used as a biomarker for prenatal steroid exposure in this reptilian species. As such, digit ratio may provide a useful tool to study temporal or spatial differences in the proximate hormonal mechanisms modulating physiological and behavioural phenotypes.
Highlights
It is well established that conditions experienced during early development contribute critically to phenotypic variation (e.g. [1,2]) affecting life-history strategies, reproductive success and survival
Digit ratio and morphology in wild-caught adults Sexes differed in body mass (males: 11.9960.25 g, females: 9.6560.28 g; F1,134 = 38.92, p,0.0001) and snout-vent length (SVL)
Variation in digit ratio in adults Variation in digit ratio in Australian painted dragon lizards is associated with the expression of at least one morph-specific trait
Summary
It is well established that conditions experienced during early development contribute critically to phenotypic variation (e.g. [1,2]) affecting life-history strategies, reproductive success and survival. Experimentally elevated estrogens during early development demasculinise copulatory behaviour in birds generally, but masculinise brain structure in songbirds Differences in exposure to sex hormones during early life result in variation in many phenotypic characteristics among individuals of the same sex [6,8,17]. Typical examples in this case are alternative phenotypes in various lizard species, which appear to be regulated by differences in sex hormone levels during early ontogeny [8,18,19]. In tree lizards (Urosaurus ornatus), for example, variation in neonatal steroid hormone levels (testosterone and progesterone) is associated with morph-specific differences in adult coloration and behaviors [8,18]
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