Taoyuan coast has long been suffering from the damage of seasonal monsoon and typhoons, along with the urbanization. The environmental force and the human development resulting in landcover change have affected the growth of the coastal forests. In order to assess the damages, satellite imagery and ortho-image are integrated to monitor the changes. Our research area ranges throughout four counties along Taoyuan coast which covers 1963 ha. First of all, according to the digitized landcover, Hibiscus tiliaceus L. was the main species. Next, we applied supervised classification to compare the effect of seasonal images. Summer image came out to be higher overall accuracy (85%) in classification. With the established landcover data, change analysis was processed. The result demonstrated that Casuarina equisetifolia L. had decreased 19 ha whereas mixed stand increased 36 ha inversely from 2000 to 2005. However, there was a discrepancy between satellite image and aerial photo in post classification comparison. Furthermore, Bi-spectral plot was adopted to monitor Casuarina equisetifolia L., Hibiscus tiliaceus L. and mixed stand to assess the physiology change. The results showed the original digital number was jumbled, radiometric value could clearly distinguish seasonal vegetation spectral, and the histrogram matching yielded the best result. Nevertheless, if the vegetation was under environmental stress, histogram matching was unable to detect the extraordinary phenomena. Besides, multivariate analysis of variance and Duncan test explained that Red band could not discriminate among seasons and vegetations, whereas NIR was efficient for separating seasons and vegetations. The use of spectral distance further explained the increasing proportion of Hibiscus tiliaceus L. in mixed stand. Finally, the NDVI in coastal forest was less than zero so that we suspected it was due to abnormal precipitation. Accordingly, the study concluded that satellite imagery could monitor dynamic vegetation change in a large scale to reduce the expenditure for achieving efficient sustainable management.