Compare to seawater, radium isotopes are enriched in hydrothermal fluids due to rock/basalt-hydrothermal alteration. The geochemical distributing and characteristics of radium isotopes within hydrothermal systems have been intensively investigated at sediment-starved mid-oceanic ridge. However, in sediment-hosted hydrothermal systems, such as the southern Okinawa Trough, only few studies have been conducted. This study aims to investigate the geochemical distributions of radium isotopes within sediment-hosted hydrothermal systems in the southern Okinawa Trough. Helium isotope ratios, methane concentrations and geochemical characteristics in seawater column and porewater samples indicated the Penglai Fault Zone and Geolin Mounds are relating to active hydrothermal venting sites. Radium isotopes (224Ra and 226Ra) activities in seawater increase with supplied from the bottom. In the near bottom seawater at Penglai Fault Zone (P1 and P1B stations), the 224Ra and 226Ra activities are much higher than the background sites, implying the influence of hydrothermal fluids. However, the near bottom seawater at Geolin Mounds (G1 site) doesn’t show the same feature. The radium isotopes in sediment shows high activities in specific layers, the precipitation from radium isotopes in the bottom seawater onto the sediment might be responsible for relatively low Ra isotopes activity in the near bottom seawater. In addition, radium isotopes (226Ra and 228Ra) in the sediment shows high activities at few specific layers with high concentrations of Au, Ag, As, Bi, Cu, Cr. Combined with 228Ra/226Ra and 210Pbex chronology results, the enrichment of metal elements and radium isotopes in the sediment, is related to episodic venting events and the latest hydrothermal venting interval being approximately 15-20 years.