The aim of this study is to investigate and analyze the vegetations of Mt. Chi-tang, besides the intention of understand the classification of the vegetation and its properties, we also hope to sieve out those environment factors which have the most interactions with the vegetation, in order to provide advices for ecological conservation and management. Mt. Chi-tang provides low altitude mountain vegetation research a good region because it retains a proper area of secondary forest stand. In addition to analysis the vegetation, we adopted a different sampling method to compare with the result of formal study, and we investigated the rare and endangered plants as well in order to provide some references for related research and conservation. A total of 56 plots were set up in the study area, including all ridges and different aspects of hillsides, and all plots were provided with measurements of 5 environmental factors. A total of 372 vascular plant species which is composed of 102 pteridophyte belonging to 26 families, 2 gymnosperm belonging to 2 families, 220 dicotyledon belonging to 73 families, and 48 monocotyledon belonging to 13 families were recorded in the research area. The Shannon diversity index of the whole area is 3.753 and the evenness indices of most individual units are beyond 0.7, showing a high diversity of plant species in the study area. According to the results of the two-way indicator species analysis（TWINSPAN）, detrended correspondence analysis（DCA）, and matrix cluster ananlysis（MCA）, the following 2 main vegetation types and 5 subtypes are recognized： A、 Ficus fistulosa － Oreocnide pedunculata type A1、Ficus fistulosa － Liquidambar formosana subtype A2、Machilus japonica var. kusanoi subtype B、 Machilus thunbergii － Diospyros morrisiana type B1、Machilus thunbergii － Prunus phaeosticta subtype B2、Machilus thunbergii － Daphniphyllum glaucescens var. oldhamii subtype B3、Myrsine seguinii － Syzygium buxifolium subtype This classification result is approximately correspondent with those gained nearby. The result also shows that the outcome of the sampling method which have less bigger plots and the sampling method which have more smaller plots are approximately the same, however, the method of using 56 widespread small plots brings some better resutls, this can provide some reference for experimental designing and planning of future researches, in the attempt to select the most favorable sampling method. The distribution of plant species in the study area is mainly determined by topography and altitude, but other factors including slope and coverage of rock are also partially related, achieving a statistically significant level. According to the growth curves of the important tree species, we presume that the researched forest have not reach the climax status due to the existence of disturbance, but if these disturbance can be removed in the future, the vegetation in this area could gradually reach climax.