Abstract
Determining both the age structure and growth pattern allows to establish the causal factors, environmental and/or genetic, that eventually may be responsible for the observed pattern of divergence. We examined the variation in age structure and growth pattern across populations of two toad species, Pelobates cultripes and Epidalea calamita that exhibit a geographic variation in body size in southern Spain. For both species, populations differed in mean age but age structure did not correlate with body size variation across populations. Although the population with the youngest females found for E. calamita was the smallest in body size, the oldest males for both species were found in a small body size population. The growth pattern fit well to a von Bertalanffy growth model and interdemic divergence were found for both the asymptotic body size (Sm ) and the growth coefficients (k). As expected, Large-Bodied populations of both species attained higher Sm but, Small-Bodied population had higher, although non significantly different, k growth coefficients. Also, the Small-Bodied population attained sexual maturity sooner but had also high longevity. The observed pattern may reflect both environmental variations in resources availability affecting body size observed across populations, but also different growth and maturity pathways that may respond to contrasting selective pressures.
Highlights
Body size is a complex attribute and many factors are responsible for its variation (Angilletta & Dunham 2003)
Lines of Arrested Growth (LAGs) were well defined in the periosteal bone and allowed a proper age estimation in all individuals of both species. For those specimens in which resorption occurred during the formation of endosteal bone, at least 76% and 85% of the first lines of arrested growth (LAG) (E. calamita and P. cultripes, respectively) the line of metamorphosis (LM) was never completely eroded
Our study showed that interdemic differences in age and growth are only partially responsible for the extreme reduction in body size in two toad species over a short geographical range associated to soil substrate differences
Summary
Body size is a complex attribute and many factors are responsible for its variation (Angilletta & Dunham 2003). Environmental conditions are determinant of ectotherms body size variation and current knowledge considers temperature as a main driver of large-scale size clines. There is a widespread plastic response of body size to rearing temperatures, with larger individuals occurring at lower temperatures and smaller individuals at warmer temperatures (temperature-size rule hypothesis, Atkinson 1994). Bergmann’s rule (Bergmann 1847), states that body size increases with latitude or altitude. Ray (1960) and Lindsey (1966) suggested that ectothermic species follow this rule and display intra- and interspecific body size variation as a response to environmental gradients. Amphibians may exhibit striking body size variation at smaller
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