Effects of reproductive condition, season, and site on selected temperatures of a viviparous gecko.

The relationship between thermal and reproductive biology is complex and poorly understood. We measured selected body temperatures (T(sel)) for the viviparous gecko Hoplodactylus maculatus. T(sel) was compared among pregnant females, nonpregnant females, and males from two sites: a cool site with biennially reproducing geckos and a warm site with annually reproducing geckos. T(sel) was measured at five times of day during three seasons and compared with microhabitat temperature (T(top)) and field body temperature (T(b)). T(sel) varied with time of day in all comparisons, and the effect of reproductive condition on T(sel) differed between sites and seasons. At both sites, when T(sel) differed between reproductive conditions, pregnant females had higher T(sel) than nonpregnant females and males. Stage of pregnancy affected the degree of elevation of T(sel). Measurements of microhabitat temperature and field T(b) showed that, even in the warmest season, geckos rarely had the opportunity to achieve T(sel) at the cool site but were able to do so at the warm site. The elevation of T(sel) with pregnancy is extreme in this species (up to 8 degrees C), which suggests that an increase in T(b) is critical to successful reproduction. Interactions between the effects of time of day, season, and reproductive condition on T(sel) must be considered in the assessment of thermoregulation in reptiles.