Microhabitat selection and niche partitioning in two syntopic geckos

Syntopic species often exhibit evolutionary mechanisms that reduce competition. A common mechanism facilitating coexistence is niche separation, which may manifest through spatial, temporal or trophic dimensions. Species that are morphologically similar, such as congeners, are likely to compete directly and thus separate their niche spatially. The microhabitat selection and partitioning of two endemic geckos of the Soutpansberg Mountains, Lygodactylus incognitus (Jacobsen, 1992; Squamata: Gekkonidae) and L. soutpansbergensis (Jacobsen, 1994; Squamata: Gekkonidae), was investigated by recording fine‐ and broad‐scale habitat variables. Results reveal that L. incognitus is restricted to high elevations above 1100 m a.s.l. and is associated with moist microclimates. Although primarily saxicolous, they also utilise tree trunks, branches and stems. Lygodactylus soutpansbergensis occurs above 800 m a.s.l and is restricted to rocky outcrops, open woodlands and rocky grasslands, often found on loose rocks. Perch height for L. soutpansbergensis is close to ground level, and they are limited to drier microclimates. Microhabitat partitioning does not appear to be due to interspecific exclusion as the smaller L. soutpansbergensis occupies the same niche dimensions in areas where L. incognitus is not present. Sites where L. incognitus occurs in the absence of L. soutpansbergensis are forested with high canopy cover, likely preventing the colonisation of L. soutpansbergensis . This suggests that morphological and physiological constraints define microhabitat limits, although this still requires testing. Anthropogenic activities are likely to threaten the persistence of L. incognitus and L. soutpansbergensis on the Soutpansberg in the future. The results from this study may aid the interpretation and understanding on the syntopy of morphologically similar species that inhabit the same macrohabitats in other areas.