This study aims to build up the analysis method of radon-in-water to survey groundwater and submarine groundwater discharge (SGD). Radon (222Rn), a radioactive gas, is one of the most extensively used naturally occurring tracers for groundwater and SGD since it is enriched in groundwater, easier to measure by RAD7 (Durridge Company Inc.), and it is inactive in biological activities. In Taipei Basin, Lanyang Plain and Pingtung Plain, radon activities in groundwater are higher than 1000 Bq/m3. However, the hydrogeology conditions in three regions are not the same. The difference of radon activity between surfacewater and groundwater in Taipei Basin is significant. It is probably caused by thick aquitard, blocked the exchange between two water masses. Radon activities of groundwater and springs in Lanyang Plain are high, and descending from northwest to coastal area. High-pressure aquifer of Hsuehshan Range is the major source of groundwater in this region. In Pingtung Plain, the highest radon activity in groundwater is along the Chaozhou Fault (around 15000 -30000 Bq/m3). At coastal area, the radon activity in groundwater is as high as 4000 Bq/m3. It indicates the terrestrial groundwater may directly discharges into the ocean. In addition, the radon activity of the surfacewater in plain area is higher than the mountain area, It implies that a well connectivity between surface and groundwater in Pingtung Plain. Kueishantao (KST) is a young volcanic islet located off northeastern Taiwan and at the southwesternmost part of the Okinawa Trough. Submarine hydrothermal systems are ubiquitous near the coast of KST. The spatial distribution of radon in surface seawater, in conjunction with chirp sonar, scientific sounder system (EK60) and multi-beam bathymetric survey works conducted on OR2-1792 and 1871 cruises. Most of hydrothermal vents identified by chirp sonar and EK60 profiles are located at shallow waters within 20m water depths and off northeastern area (water depths around 200m) and the radon activity in surface seawater is also higher than adjacent seas. Our results confirm the feasibility of RAD H2O and RAD AQUA methods in tracing the process of groundwater and submarine hydrothermal activity in Taiwan area.