This study aims at identifying the typical PM2.5 contamination events over the Kaohsiung-Pingtung areas and detecting the associated diurnal variations of regional meteorological conditions and large-scale circulation settings over East Asia. The results show that the typical event lasts about 36 hours, and there exists a precursor period initiating at 6 a.m. during the previous day before the principal period ending at 6 p.m. of the current day. The temporal evolution of area-averaged PM2.5 concentration shows a semidiurnal oscillation by peaking at 1 a.m. and 11 a.m., but with two dips occurring at 6 a.m. and 6 p.m. The accompanying changes of NOx, CO, THC, and NMHC, which are mainly generated by traffic and industrial activities, lead PM2.5 3-to-4 hours. The event-averaged concentration of NOx as well as CO shows no significant difference compared to the climatic mean value. In contrast, the THC and NMHC (precursors of the photochemical reaction) and the hygroscopic SO2 show significant lower event-averaged concentrations.When a PM2.5 event occurs, changes of meteorological conditions including the wide-spread rising temperature, daytime southerly wind anomalies near the coasts, nighttime easterly wind anomalies near the mountains, and the sinking air in the lower troposphere as a whole, prolong its duration time inside the boundary layer. Changes of temperature and PM2.5 concentration, qualitatively, are negative- (positive-) correlated during the daytime (nighttime). It is found that the diurnal nature of temperature evolution likely interacts with the human-induced semidiurnal signal of PM2.5. The associated changes in the large-scale circulation over East Asia have three major patterns: the off-shored high pressure, cold surge, and frontal passage. The identified patterns are well predicted by the current weather model and thereby providing the basis for the extended forecast on the occurrence of PM2.5 event, though they all satisfy the so-called high pressure reflux weather within the regional perspective.