Conserving the planet's biodiversity is greatly handicapped, in that only a small fraction of it (∼14-75%) has been described so far. Integrative taxonomy is making significant inroads in light of this challenge by incorporating multiple data sets across a wide range of disciplines that simultaneously elucidate phylogenetic structure and delimit species-level lineages within a unified species concept. An integrative taxonomic approach to the classification of the gekkonid genus Hemiphyllodactylus Bleeker, 1860 reveals that it is far more diverse than posited by a recent taxonomic revision based solely on morphology, and that it is composed of at least 19 species, most of which are montane upland or insular endemics. Three new species (Hemiphyllodactylus dushanensis sp. nov., Hemiphyllodactylus jinpingensis sp. nov., and Hemiphyllodactylus longlingensis sp. nov.) from southern China previously considered to be subspecies of Hemiphyllodactylus yunnanensis (Boulenger, 1903) are elevated to full species status, and 10 new species-level lineages ranging from Vietnam, Laos, Thailand, Myanmar, Peninsular Malaysia, the Philippines, and Indonesia are identified. One new species, Hemiphyllodactylus tehtarik sp. nov. from Gunung Tebu, Terengganu, Peninsular Malaysia, is described herein, and is differentiated from all other species of Hemiphyllodactylus on the basis of morphology, colour pattern, and an 18.1-31.5% sequence divergence from all other congeners. Hemiphyllodactylus larutensis (Boulenger, 1900) is removed from the synonymy of H. harterti (Werner, 1900). Using an integrative taxonomic approach imbues the revised classification of 849 Hemiphyllodactylus with more objectivity, stability, and phylogenetic history, while identifying undescribed species-level lineages in potential need of conservation.
