Tuber magnatum could form ectomycorrhizae on Populus alba, Salixalba , Quercus sp., and Cistus sp.. It could produce the most valuable ascomata in these stands only under very appropriate natural conditions so far. In this study the spore suspension of Tuber magnatum was used as inoculum and the inoculated seedlings were cultured in artificial soils adjusted to different pH levels by adding different amounts of vermiculite and peat. The aims of this study were (1) to perform semi-aseptic mycorrhiza synthesis by spores suspension of Tuber magnatum on Cyclobalanopsis glauca seedlings, and (2) to compare the mycorrhiza infection percentage and the relationship of nutrient concentrations in leaves when the seedlings were cultured in artificial soils of different pH levels . The results showed that the spore suspension of Tuber magnatum could form typical ectomycorrhizae on C. glauca . It’s mycorrhizal characteristics was described as follows: monopodial , club-shaped , glat , light brown , yellowish brown to dark brown when aging , with or without setae , the setal hyphae hyaline or yellowish brown and sometimes with vesicle at the middle or near the end , with irregularly pinnate root system ; fungus mantle 10-15 µm thick , pseudoparenchymatous structure , extraradical hyphae light brown to yellowsch brown in color . The mycorrhizal infection percentage was the highest for the treatment grown in artificial soils of pH 7.5 , in terms of individual seedlings , but it was the best for the treatment grown in pH 6.5 artificial soils when all the treated seedlings were counted. All inoculated seedlings could form ectomycorrhizae in spite of different pH levels of artificial soils . By observing the mycorrhizal development dynamics continuously , it was found that it took about 2 months for the earliest mycorrhizal formation and the aging of mycorrhizae could happen in 2-3 months or over ten months. The mycorrhizal infection percentage for continuous 7 months was with S-shaped curve, and then fell down slightly for those grown in pH 5.9 and 6.0 artificial soils . The seedlings cultured in artificial soils of pH 6.5 , pH 7.0 and pH 7.5 could reach high mycorrhizal infection percentage at the earlier stage of cultivation. Therefore , it could reduce mycorrhiza-forming time. Significantly positive relationship existed between different pH medium and mycorrhizal infection percentage. Mycorrhzial morphology showed no difference, when the seedlings were cultured in different artificial soils. Different pH artificial soils had little influence on the leaf nutrient concentrations , except P, K and Mg. Either those inoculated or uninoculated seedlings showed no obvious difference( p <0.05) in leaf nutrient concentrations , when the artificial soils were added with MMN nutrient solution.