Background: The Qinghai-Tibet Plateau (QTP) is the highest plateau in the world, and the microorganisms there play vital ecological roles in the global biogeochemical cycle; however, detailed information on the microbial communities in QTP is still lacking. Results: Here, we performed a landscape survey of the microorganisms in Bamucuo, Tibet, resulting in 160,212 (soil) and 135,994 (water) contigs by shotgun metagenomic methods, and generated 75 nearly complete metagenome-assembled genomes (MAGs). Proteobacteria, Actinobacteria and Firmicutes were found to be the three most dominant bacterial phyla, while Euryarchaeota was the most dominant archaeal phylum. Surprisingly, Pandoravirus salinus was found in the soil microbial community. The KEGG annotations showed that the genes related to metabolism accounted for 62.9% (soil) and 58.4% (water), respectively. Of the 75 MAGs, 63 were found to contain the genes related to all the six carbon fixation pathways, and the heavy metal resistance genes, the pressure response subsystem, and the secondary metabolite biosynthesis gene clusters (BGCs) were discovered to be abundant. Conclusions: We concluded that the microorganisms in Bamucuo fix carbon mainly through the 3-hydroxypropionic bi-cycle pathway; this study, for the first time, characterized the microbial community composition and metabolic capacity in QTP high-altitude areas (with an altitude of 4,555 meters), confirmed that QTP is a huge and valuable resource bank in which more new non-resistant antibiotics and many other bioactive substances could be developed, and provided the expanded information for further microbial community studies in QTP.