Some truffles are the most precious edible ectomycorrhizal muschrooms and with considerable economic importance in the world. Recently they were often used as materials for ectomycorrhizal research. Therefore, the purposes of this study were (1) to ascertain the optimum and the highest deadly temperature to the colony growth of some Tuber species, and (2) to describe the ectomycorrhizal morphology formed by Tuber aestivum on Cyclobalanopsis glauca and Pinus taiwanensis with semi-aseptic synthesis. The materials used for culture medium and temperature test were the isolated Tuber brumale, Tuber indicum, Tuber formosanum, Tuber pseudo-excavatum, Tuber melanosoprum, and Tuber magnatum. The above-described six Tuber species were inoculated on the YMT and YpSs culture medium to compare which medium was better for their colony growth. The temperature treatment for each colony growth of each truffle species was set at 15℃, 20℃, 25℃, 30℃ and 34℃, respectively. Each treatment was triplicated. This test ended when one of the rapidly grown Tuber sp. colony reached to the edge of petri dish. The highest deadly temperature test was set at 33℃, 34℃, 35℃ and 36℃. The spore suspension of T. aestivum was used to inoculate the semi-aseptic seedlings of C. glauca and P. taiwanensis. The mycorrhizal morphology was observed under stereomicroscope, light microscope and scanning electron microscope. The results showed that only the colony growth of T. pseudo-excavatum had significant difference (P<0.05) between the YMT and YpSs medium. The most optimum colony growth temperature was at 25℃ for all Tuber species tested and at 34℃ the worst. The order for the colony growth magnitude at different temperatures was 25℃≧20℃>30℃≧15℃>34℃. Among which, the colony growth of T. brumale was the fastest. Except T. brumale, the colony growth of all other species ceased at 34℃. The highest deadly temperature was 35℃ for Tuber magnatum and Tuber indicum, and 36℃ for Tuber melanosoprum and Tuber formosanum. In terms of colony color, most of their colonies were white in spite of culture medium test or temperature test. The colony growth was uniform and dense on the YpSs medium, but sparse and thin on the YMT medium. The colony color of all Tuber sp. is white, except the colony color of T. indicum at 30℃ was orange-brown. All colonies could secrete pigment. T. pseudo-excavatum could endure short-period high temperature, and the colony growth of T. brumale ceased at 36℃. The ectomycorrhizal characteristics of Tuber aestivum observed under stereomicroscope were as followings: simple, regularly pinnate (for C. glauca only) or dichotomous (for P. taiwanensis only), 500~3000 μm in length, 114~300 μm in diameter; light yellow in the young age, yellow brown to brown when mature, dark brown in the wilted age; fungal mantle smooth or with sparse yellowish-golden or wooly yellowish setae on mycorrhizal top. Under light microscope, the ectomycorrhizal characteristics of Tuber aestivum were: with wave-like extending hyphae, with septal hyphae, setae with vesicle or wewithout, hyphae sometimes with small warts. The characteristics of ectomycorrhizae observed under scanning electron microscope re: fungus mantle 12~20 μm thick, regular synenchyma; hyphal surface smooth, 1~2.3 μm in diameter, occasionally with cystida at the top or with hyphal anastomoses. Hartig nets reached to the first layer of cortex cells, formed finger-like hyphae in the cortical cell wall.