The influence of hydric environments during egg incubation on embryonic heart rates and offspring phenotypes in a scincid lizard (Lampropholis guichenoti).

Extensive evidence shows that incubation conditions can affect phenotypic traits of hatchling reptiles, but the relative importance of thermal versus hydric factors, and the proximate mechanisms by which such factors influence hatchling phenotypes, remain unclear for most species. We incubated eggs of an Australian scincid lizard, Lampropholis guichenoti, at four different moisture contents ranging from -500 to 0 kPa. Drier substrates reduced water uptake of eggs and resulted in smaller hatchlings, but other phenotypic traits (incubation periods, hatchling sex, body proportions, running speeds, growth rates post-hatching) were not affected by the hydric environment during incubation. Contrary to our prediction, lower water uptake during incubation (and hence, presumably, more viscous blood) did not affect embryonic heart rates. Thus, as in many other squamate species, hatchling phenotypes and embryonic developmental rates of L. guichenoti are less sensitive to hydric conditions in the nest than to thermal regimes.