Multi-Metagenome Analysis Unravels Community Collapse After Sampling and Hints the Cultivation Strategy of CPR Bacteria in Groundwater
Kai Jiang, Lijia Ye, Chunling Cao, Gen Che, Yanxing Wang, Yu Hong

TL;DR
This study explores how CPR bacteria in groundwater change after sampling and suggests strategies to cultivate them, which could help understand their roles and characteristics.
Contribution
The study introduces a multi-metagenome approach to understand CPR bacteria's ecological roles and proposes actionable cultivation strategies.
Findings
CPR communities in groundwater collapse rapidly after sampling due to competition with non-CPR bacteria.
Ampicillin helps stabilize CPR communities by suppressing competitors.
Long-term enrichment revealed CPR bacteria's resilience and identified potential symbiotic partners for co-culture trials.
Abstract
Groundwater harbors phylogenetically diverse Candidate Phyla Radiation (CPR) bacteria, representing an ideal ecosystem for studying this microbial dark matter. However, no CPR strains have been successfully isolated from groundwater, severely limiting further research. This study employed a multi-metagenome approach, integrating time-resolved sampling, antibiotic/nutrient interventions, and microbial correlation networks to unravel CPR ecological roles in groundwater and provide insights into their subsequent cultivation. Through 36 metagenomes from a groundwater system containing at least 68 CPR phyla, we revealed the time-sensitive collapse of CPR communities: total abundance plummeted from 7.9% to 0.15% within 48 h post-sampling, driven by competition with rapidly dividing non-CPR bacteria, such as members of Pseudomonadota. Ampicillin (100 mg/L) stabilized CPR communities by…
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Taxonomy
TopicsMicrobial Community Ecology and Physiology · Genomics and Phylogenetic Studies · Metabolomics and Mass Spectrometry Studies
