Thirteen submarine active mud volcanoes, which named MV1~ MV13, have been recognized in the area between Kaoping Canyon and Fangliao Ridge, offshore southwest Taiwan. It has been considered that these mud volcanoes are closely related to the intrusion of mud diapirs. The predominant composition of those gas seeps is methane, which may escape to the atmosphere and become an important natural source of greenhouse gas. To estimate the methane flux emission via those mud olcanoes in this area, we have conducted three-cruise surveys during the period of 2011-2012. In this study, we traced the location of gas plume for each mud volcano by echo sonar (EK60) survey first. And then, we can collect the water column samples right above the venting mud volcanoes, and also the sediment samples by gravity corer. The carbon isotopic data of methane gas from cored sediments range from -30 to -50 ‰. It indicates that the methane gas is mostly thermogenic in origin, and may mix with different proportions of biogenic gas source. Meanwhile, the dissolved methane concentrations of sea water above the seepages are 2-20 times higher than those in the background area. Many factors may affect the migration of dissolved ethane, including the distribution of methane gas bubble sizes and upwelling / lateral current resulted by initial condition of venting. All the evidences point out the issolved methane which supplied by deep water submarine mud volcanoes can be transferred to the shallow depth in study area. Based on the diffusive exchange equation and Fick’s First Law, the methane flux of sediment-to-bottom water and ocean-to-air can be estimated ca. 1.14 ~ 157 and 0.15 ~ 127 μmol m^-2 d^-1, respectively. The result shows that the sea water would play an important role in methane source to atmosphere, at least, in the studied region. Furthermore, we can have an approximate estimation of the total methane flux of ca. 4,100 kg yr^-1 in this region.