Biodiversity hotspot has become one of the most useful concepts for effective conservation planning, especially in places where resources that can be devoted to conservation are limited. We compiled occurrence data of terrestrial vertebrate species in combination with environmental datasets from open sources to build species distribution models. We then estimated biodiversity hotspots of terrestrial amphibians, reptiles, birds and mammals of Taiwan by integrating species-specific distribution models. We generated the hotspots maps based on the richness of all species, endemic species and subspecies, protected species, and threatened species. We overlaid these hotspots with existing protected areas in a gap analysis. All together, we modeled 232 species: 20 amphibians (7 endemic species and subspecies, 1 protected species, and 1 threatened species); 56 reptiles (15 endemic species and subspecies, 19 protected species, and 3 threatened species); 133 birds (66 endemic species and subspecies, 32 protected species, and 12 threatened species); 23 mammals (13 endemic species and subspecies, and 5 protected species). The terrestrial vertebrate hotspots in Taiwan are mainly located below 1,500 m elevation, while existing protected areas are mainly in the mid to high mountain regions above 1,500 m. We found that 80.0-98.5% of the hotspots fall outside the protected areas, indicating the importance of conservation planning and actions in the low-elevation areas. Species-level data from field research are the cornerstone of mainstreaming the value of biodiversity. By making data publicly open and easily transferrable, we can improve the processes of scientific analysis and decision-making, thereby maximizing the often-limited resources for conservation efforts.