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A deep metagenomic atlas of Qinghai-Xizang Plateau lakes reveals their microbial diversity and salinity adaptation mechanisms

Zhifeng Zhang, Jun-En Huang, Dorji Phurbu, Zepeng Qu, Fang Liu, Lei Cai

2025Cell Reports6 citationsDOIOpen Access PDF

Abstract

The Qinghai-Xizang Plateau (QXP), harboring the planet's highest density of plateau lakes, offers an exceptional biogeographic environment for studying extremophilic microbial communities and their adaptation to salinity. Through deep metagenomic sequencing, we construct the Qinghai-Xizang Lake Sediment Genome (QXLSG) catalog, a high-resolution genomic catalog comprising 5,866 metagenome-assembled genomes (MAGs), 58.16 million non-redundant protein encoding genes, and 19,008 biosynthetic gene clusters. Notably, 80.78% of the 2,742 species-level MAGs represent undescribed taxa, significantly expanding the known microbial diversity. Salinity emerges as the primary environmental factor influencing microbial community. Functional annotation highlights that the "salt-out" strategy, particularly the uptake of glycine betaine, is the main mechanism for salinity tolerance. This strategy is prevalent in both hypersaline lake communities and the dominant microbial phyla. Overall, this study provides a crucial genetic resource for future bioprospecting and deepens our understanding of the fundamental mechanisms of microbial adaptation to extreme saline environments.

Topics & Concepts

MetagenomicsSalinityBiologyAdaptation (eye)Extreme environmentBioprospectingEcologyMicrobial matPlateau (mathematics)Microbial ecologyEcosystemBiodiversityExtremophileMicrobial geneticsGenetic diversityHalophileMicrobial population biologyClimate changeEnvironmental changeLocal adaptationGenomeMechanism (biology)GenomicsGeneEcological selectionBiotaMicrobial Community Ecology and PhysiologyGenomics and Phylogenetic StudiesGut microbiota and health