Project description:Global warming has shifted climate zones poleward or upward. However, understanding the responses and mechanism of microbial community structure and functions relevant to natural climate zone succession is challenged by the high complexity of microbial communities. Here, we examined soil microbial community in three broadleaved forests located in the Wulu Mountain (WLM, temperate climate), Funiu Mountain (FNM, at the border of temperate and subtropical climate zones), or Shennongjia Mountain (SNJ, subtropical climate).Soils were characterized for geochemistry, Illumina sequencing was used to determine microbial taxonomic communities and GeoChips 5.0 were used to determine microbial functional genes.

Project description:Microbial diversity of freezing-thawing soil

Project description:We established simple synthetic microbial communities in a microcosm model system to determine the mechanisms that underlay cross-feeding in microbial methane-consuming communities. Co-occurring strains from Lake Washington sediment were used that are involved in methane consumption, a methanotroph and two non-methanotrophic methylotrophs.

Project description:Effects of freezing and thawing on microorganisms

Project description:Lake A protist communities

Project description:Geographic distance and mountain ranges structure freshwater protist communities on a European scale

Project description:Seasonal freeze thaw significantly affects soil fungal communities

Project description:Metatransciptomics analysis of thawing and freezing active layer permafrost

Project description:Effects of freezing and thawing on soil bacterial community

Project description:Protist Diversity and Seasonal Dynamics in Skagerrak Plankton Communities