It has been found that Bottom Simulating Reflections (BSRs) widely distribute in offshore southwestern Taiwan which infer the existence of potential gas hydrates underneath the seafloor sediments. Fluids and gases derived from dissociation of gas hydrates which usually enriched in methane concentrations would affect the compositions of sea water and sediments nearby the venting areas. Hence, methane concentrations of sea waters and sediments become useful proxies for exploration of potential gas hydrates in one area. We systematically collected sea waters and cored sediments for dissolved and pore-space gas analysis through eight cruises: ORI-697, ORI-718, ORII-1207, ORII-1230, ORI-732, Marion Dufresne (MD) cruise, ORI-758 and ORI-765 from 2003 to 2005 in this study. Some unusual high methane concentrations can be found in offshore southwestern Taiwan, e.g., sites G23 of ORI-697, N8 of ORI-718, G96 of ORI-732, MD05-2911(G22), MD05-2912(G24), MD052913(G5A) and MD05-2914(73205) of MD cruise, GH10 and GH16 of ORI-758 cruise, sites A, C, D, and H of ORI-765 cruise. The methane concentrations of cored sediments display an increasing trend with depth. Meanwhile, the water column also showed unusual high dissolve methane concentrations at sites A and H of cruise ORI-765. It indicates that gases are venting actively from seafloor in this region. Compiling the available data, high CH4 concentrations are mainly distributed in active margin SW offshore Taiwan; nevertheless, no abnormally high concentrations were found in passive margin so far. In addition, the profiles of methane and sulfate of cored sediments reveal very shallow depths of sulfate methane interface (SMI) at some sites in this study. The linear sulfate gradients, low total organic carbon (TOC) and high methane concentrations imply that sulfate reduction is mainly driven by the process of anaerobic methane oxidation (AMO) in sediments. Thus, the methane fluxes can be determined through the gradients of sulfate reduction and steady state solutions to diffusion equations and show that the methane fluxes are very high, especially at sites G23 of ORI-697 (4.12×10-2 mmol cm-2yr-1) and N8 of ORI-718 (2.11×10-2 mmol cm-2yr-1) in offshore southwestern Taiwan. It indicates that there is a methane-enriched venting source, which may be the product of dissociation of gas hydrates, in this area. Some selected gas samples from ORI-718 (N6； N8； G22); ORI-732 (G96) and MD cruise have also been analyzed for carbon isotopic compositions. The δ13C data of CH4 gases range from -28.3~ -95.0 o/oo and -11.6 ~ -31.6 o/oo for CO2. The carbon isotopic compositions of methane show that organic gas source is dominated at shallower depth, however, some thermogenic gases might be introduced from deeper source in this region.