Volcanic gases can provide us much useful information for understanding the characteristics and activity of magmas. Samples were collected by using ‘Giggenbach bottles’ from Tatun Volcano Group (TVG), Taiwan, and Taal Volcano and Negros Island, Philippine. The highest temperatures of these geothermal areas are around boiling point. These samples all show a similar composition as those of low-temperature fumaroles in other parts of the world. H2O is the major species of these gas samples, and CO2 is the dominant component after de-watering. Both of the gas compositions and temperatures indicate that vapor separated from boiling water near the surface. The high 3He/4He ratios of all samples indicate a mantle-derived degassing source in origin, i.e., magma chambers could still exist beneath these volcanoes. Helium isotopes ratios show a decreasing trend from north to south in Negros Island, such distribution could be due to more crustal contamination caused by the collision event which happened in the northern part of the island. The carbon isotopic values of CO2 of Taal Volcano and the TVG area exhibit a magmatic source. The carbon isotopic values of CO2 of Negros Island samples are far less negative than the values from a magma source. There are other carbon sources of CO2, most likely a thick sequence of limestone formation in Negros Island. We also analyzed the volatile organic compounds (VOCs) in the TVG area. The VOCs in most sampling sites show a similar distribution as hydrothermal areas, except Da-you-keng area. However, compared to other volcanoes in the world, there is an excess of methane in the TVG area. According to carbon and hydrogen isotopic values of methane, this excess methane might be produced by the organic matter which in the deep stratum. In addition, the results of long-term observation in the TVG area show that there is no significant change in gas composition from 1999 to 2003. However, since August 2004, progressive increases of HCl concentrations and SO2/H2S ratio in fumaroles from Da-you-keng have been observed. These variations were accompanied by rising temperature of fumaroles. We propose two possible processes, 1) new magma supply and 2) recent opening of fractures in local area, to explain these observations. In 2010, brief increases of HCl concentrations were observed in most sampling sites simultaneously. There is no large-scale earthquake take place in this period. We need to check if this phenomenon is associated with microseismic activity.