The present study investigated species richness, relative abundance, and short temporal variability of rockpool fish communities on the southwestern coast of Yaku-shima Island, northwestern Pacific. In total, 2,850 fish (total biomass approximately 3,400 g) representing 17 families and 54 species were collected from 16 rockpools from May 2009 to February 2010. Gobiidae (12 species), Blenniidae (10), Pomacentridae (6), and Labridae (5) were the dominant families; Blenniidae was the most abundant family (57.1 % of the total number of fish), followed by Gobiidae (30.1 %), Tripterygiidae (5.3 %), Labridae (3.2 %), and Pomacentridae (2.4 %). The Blenniidae accounted for more than 80.0 % of the community biomass. This dominance of Blenniidae and Gobiidae in the community reflects their diversity in the western Pacific and ability to adapt to rocky intertidal habitats. The mean density and species richness of rockpool fish decreased significantly in winter. This is attributed to a decrease in recruitment of transient and accidental visitor species into the rockpool environments, which in turn was due to a significant decline in water temperature in winter. However, mean diversity index (Simpson’s D) did not vary significantly across the seasons, because over 80.0 % of the total number of individuals in each season was from six common species (three blenniids, two gobiids, and a tripterygiid). It can be concluded that the community composition is generally stable over short time-scales. The biogeographic composition of this assemblage was compared with those of two other sites (cited from two past studies) in southern Japanese waters. These other sites were mostly composed of warm temperate species, with regard to the number of species and individuals, while tropical species were predominant in the assemblage at the southwestern coast of Yaku-shima Island. This result suggests that the warm Kuroshio Current has more influence on the Yaku-shima Island coastal fauna than it does on those of the other sites in southern Japanese waters.