Fluid geochemistry plays an essential role in Earth sciences. It has been particularly influential in aquiring information on migration of geo-fliuds, global warming, and chemical evolution of the Earth. Over the last few decades, the continuing improvements in analytical technology have led to many new and fascinating applications in this field, and we could further look into Earth sciences from different aspects. This dissertation focuses on different applications of fluid geochemistry in three areas: the Liu-Huang-Ku hydrothermal area, the Ilan Plain and the Mid Okinawa Trough backarc basin. Carbon dioxide flux is an important index of early magma ascending. By observing the variation of soil CO2 flux, scientists could monitor volcanic activities in a safe distance. Quantifying soil CO2 flux also enhances the precision of gas budget, by which we could do a worldwide comparison of soil flux and better improve the knowledge of current volcanic activity in our research area. Combined gas flux, gas compositions and isotope data of soil gas from Liu-Huang-Ku were carried out in order to unravel the relationship between soil CO2 flux and volcanic activities. The results show a clear correlation between soil CO2 concentration and Helium isotope ratios, which also suggest that soil CO2 could be a good parameter for future monitoring in this area. Helium is a key tracer of fluid flow. Helium concentration and isotope ratios of samples from the Earth surface are the ultimate results of mixing and integrating processes during migration from mantle to the atmosphere. By coupling Helium isotope ratios and concentration, we can identify their sources and geological significance. The findings of this study indicate the migration mechanism of Helium-3 and Helium-4 respectively; and most importantly, mantle fluids have migrated into the crust-thinning Ilan Plain. Helium isotope studies are valuable in ocean research; however, one of the thorniest problems researchers face is air contamination. In this study, we successfully used a newly developed device ‘noble gas porewater sampler’ to sample marine sediments from the Mid Okinawa Trough backarc basin. We measured the helium isotope ratios in the porewater and derived helium-3 flux from a backarc basin. The results of this study suggest that helium-3 flux from subduction zone is a quarter of that from mid ocean ridge magmatism, and helium-4 flux from subduction zone might have been underestimated.