Urbanization causes air pollution in metropolitan areas, coupled with meteorological factors that affect air quality. Taiwan has the second highest population density in the world with higher urbanization, and the proportion of the elderly population is increasing rapidly. Serious urban air pollution had become a threat to susceptible elderly population. This study aimed to investigate the long-term variations of air pollution in the metropolitan (Taipei area, Taichung City, and Kaohsiung City) and rural areas (Hualien County), and to evaluate the relationship among air pollution, meteological factors, and COPD-associated ED visits of susceptible elderly population in Taipei city and New Taipei city. Data of air pollutants concentrations (PM10, PM2.5, O3, SO2, NO2 and CO), meteorological factors (daily temperature, relative humidity and air pressure), and daily COPD-associated ED visits were collected from Taiwan Environmental Protection Administration (EPA) air monitoring stations, Central Weather Bureau stations, and the Taiwan National Health Insurance database, respectively. We used a case-crossover study design and conditional logistic regression models for evaluating the associations between the environmental factors and COPD-associated ED visits. The analytical results indicate that levels of air pollution in metropolitan areas were greater than in the rural area. Kaohsiung City had the highest levels of O3, SO2, PM2.5 and PM10. Clear downward trends for CO, NO2, PM10, PM2.5, and especially SO2 concentrations were found in the surveyed areas, whereas O3 showed no decrease. Both O3 and PM concentrations showed similar bimodal seasonal distributions. Taiwan’s air quality has improved significantly since 1993, indicating the effectiveness of promoting air pollution strategies and policies by the Taiwan EPA. Air pollution had an obvious improvement in Taipei area after the MRT system began operations in 1996. Additionally, single lag day effects were found greatest on lag 4 for PM2.5 exposure, on lag 5 for both O3 and SO2 exposure, corresponding to risk of elderly COPD emergency visits (65 to 79 years old) of 0.8% (95% CI=0.1%-1.6%, p=0.029), 1.3% (95% CI=0.4%-2.3%, p=0.007), and 10.3% (95% CI=1.6%-19.7%, p=0.02) with IQR increment of pollutant concentrations, respectively. In warmer days (>27.9℃), a significantly greater effect (OR=1.037, 95% CI＝1.001-1.074, p=0.047 ) on elderly COPD-associated ED visits was estimated for PM2.5 with coexistence of O3. Additionally, either O3 or SO2 combined with other air pollutants increased the risk of elderly COPD-associated ED visits in the days of high relative humidity (75.1%-81.5%) and air pressure difference (3.91-4.80 hpa), respectively. Evidence of the combined effect of air pollutants and meteorological factors on COPD-associated ED visits in the susceptible elderly people was found. It suggests that government authorities revise existing air pollution regulation policies, and strengthen health education propaganda in order to ensure the health of the susceptible elderly population.