The using of molecular methods has advanced our visions on environmental microbiology in recent years. Numerous breakthroughs and discoveries have been made on microbial community, ecological revolution, bio-adaptation and genetics bio-resources in extreme environments. In the first part of this study, archaeal community composition of Yangmingshan National Park was investigated by 16S rRNA and fluorescence in situ hybridization (FISH). Tetrameric restriction enzyme (TRE) was used in digestion and differentiation in the restriction fragment length polymorphism (RFLP) fragments, and AciI, BstUI and RsaI were shown to be the optimal TREs for TRE-RFLP. Nine clones were obtained in the studies, with clones M70 and M6 being found to be phylogenetically affiliated to Sulfolobus and Caldisphaera in domain Crenarchaeota, respectively, whereas seven other clones were found to be affiliated to uncultured and unidentified archaeon isolated from thermoacidic environments. Using FISH, soil and water region cells were hybridized with DAPI (4’, 6-diamidino-2-phenylindole) and specific fluorescently labeled probes. 15.69 % and 7.16 % of the DAPI-stained cells hybridized with universal archaeal probe ARC915 and sulfate-reducing bacterial probe SRB385, respectively. In second part, microbial diversity of tufa found in Taroko National Park was investigated using 16S rRNA cloning and FISH. Diversity index of Eternal Spring Shrine, Baiyang walkway and the Swallow valley showed to be 0.808, 0.864 and 0.866, respectively. The Evenness index also showed 0.768, 0.9 and 0.916 at those three sites. This implied low microbial diversity in E. S. Shrine. Eleven 16S rRNA phylotypes and 37 genus and group of bacteria were identified. Of total 381 clones isolated, proteobacteria occupied 25–30 % whereas cyanobacteria dominated 16–28 % in total microbial population of above three sites. Acidobacteria, agricultural soil bacterium, verrucomicrobia and firmicutes were generally distributed in these sampling sites. In the third part, α-glucosidase was cloned from isolate #33-9 and the protein was expressed using commercial cell-free transcription and translation kit. The molecular weight of the translated product is approximately 60 kD as shown by SDS-PAGE. The product was assayed for activity using p-nitrophenyl-glucopyranoside. The optimum temperature and pH for the enzyme were shown to be 60–70 °C and 2–3, respectively.