Artificial reefs are important since they provide additional habitat leading to increasing abundance and biomass of marine biota. In a Bukchon artificial reef, Jeju Island, South Korea, environment data, artificial reef properties, and acoustic data in four seasons were integrated to visualize and examine their connections using a geographic information system (GIS). As a result, regarding the spatial and temporal distributions of fishes, January had the lowest Nautical Area Scattering Coefficient (NASC, m^2/nm^2) and June had the highest NASC, and relatively high NASC was observed from 5 to 30 m deep throughout seasons. The influential circle (effective distance from reef) had a trend to decrease in January, April, and October except for June. Based on interconnection between June fish schools, interpolated water temperature, and reef property, the fish schools preferred approximately 18.4 °C and concrete of reef material, and their average closest distance to reefs was 405.2 m. A dominant species in four seasons from biological samplings was ben-thopelagic. This study pointed that the GIS application with primarily acoustic data could be one of great tools for fish resources and reef management in complex reef environments.