The correlations of isotopic ratios in precipitation with temperature, air pressure and humidity at different altitudes, in southwest China, are analyzed. There appear marked negative correlations for the δ 18 O in precipitation with precipitation amount, vapor pressure and atmospheric precipitable water (PW) at Mengzi, Simao and Tengchong stations on synoptic timescale; the marked negative correlations between the δ 18 O in precipitation and the diurnal mean temperature at 400 hPa, 500 hPa, 700 hPa and 850 hPa are different from the temperature effect in middle-high-latitude inland. Moreover, the notable positive correlation between the δ 18 O in precipitation and the dew-point deficit ΔT d at different altitudes is found at the three stations. On annual timescale, the annual precipitation amount weighted mean δ 18 O display the negative correlations not only with annual precipitation but also with annual mean temperature at 500 hPa. It can be deduced that, in the years with abnormally strong summer monsoon, more warm and wet air from low-latitude oceans is transported northward along the vapor channel located in southwest China and generates abnormally strong rainfall on the way. Meanwhile, the abnormally strong condensation process will release more condensed latent heat into atmosphere, and lead to the rise of atmospheric temperature during rainfall, but decline of the δ 18 O in precipitation. On the contrary, in the years with abnormally weak summer monsoon, the abnormally weak condensation process will release less condensed latent heat into atmosphere, and lead to the decline of atmospheric temperature during rainfall, but increase of the δ 18 O in precipitation. southwest China, stable isotope, precipitation, temperature, humidity, correlation In the past few decades, stable isotopes of oxygen ( 18 O, as H 2 18 O) and hydrogen (D, as HD 16 O) in water bodies have been found increasing applications in the studies of cloud physics, climatology, hydrology and palaeo-climatology [1,2] . Although very small amount in nature water, the stable isotopes respond to environmental variation very sensitively. Precipitation is an important link in the water cycle. The abundance of the stable isotopes in precipitation is closely associated with the weather process of generating condensation, initial conditions in vapor origin places and large-scale circulation patterns [3,4] .The global survey for the stable isotopic compositions in precipitation shows that there appears a marked positive correlation between stable isotopic ratio in precipitation and temperature in middle-high-latitude inland, which is called temperature effect [1,5] . Temperature effect arises from the fact that the temperature during phase change controls the fractionation rate of stable
