The shallow-water hydrothermal vent system of Kueishan Island off the coast of Taiwan has been described as one of the most acidic vents in the world, discharging water with a high content of sulfur compounds. Sulfide is an inhibitor of cytochrome oxidase activity thus abolishes aerobic respiration. To survive in this toxic habitats, the vent crab, Xenograpsus testudinatus, may show a range of physiological feature to cope with sulfide-rich environment. In this study, we found the presence of hypotaurine and thiotaurine in the hemolymph, and transcript expressions of taurine transporter (taut) in the 3rd and 5th gill pair are significantly higher in native sulfidic environment than in non-sulfide treated seawater. Protein expression of TAUT in the 5th pair gill showed the similar appearance. These results inferred that X. testudinatus gills are capable to catabolize hypotaurine and S2- thus synthesize thiotaurine to reduce cellular toxicity. In addition, highly expressions of sulfur transport-related solute carrier 26A11 (SLC26A11), was found in gills of native habitants. It implies that sulfide may be oxidized to sulfate then transported by SLC26A11 in gill epithelium. Accordingly, X. testudinatus have evolved efficient sulfide detoxification mechanisms in gill epithelium to minimize sulfide-induced toxic stress under hydrothermal vent system.