Resuscitation of soil microbiota after > 70-years of desiccation

Abstract

AbstractThe abundance and diversity of bacteria in 24 historical soil samples under air-dried storage conditions for more than 70 years were assessed by quantification and high-throughput sequencing analysis of 16S rRNA genes. All soils contained a measurable abundance of bacteria varying from 103 to 108 per gram of soil and contrasting community compositions were observed in different background soils, suggesting that the bacteria detected were indigenous to the soil. Following a 4-week soil rewetting event, the bacterial abundance significantly increased in soils, indicating strong adaptation of soil bacteria to extreme osmotic change and high resuscitation potential of some bacteria over long periods of desiccation. Paenibacillus, Cohnella and two unclassified Bacillales genera within the phylum Firmicutes represented the most ubiquitously active taxa, which showed growth in the highest number of soils (≥12 soils), while genera Tumebacillus, Alicyclobacillus and Brevibacillus in the phylum Firmicutes displayed the highest growth rates in soils (with >1000-fold average increase) following rewetting. Additionally, some Actinobacteria and Proteobacteria genera showed relatively high activity following rewetting, suggesting that the resilience to long-term desiccation and rewetting is a common trait across phylogenetically divergent microbes. The present study thus demonstrated that diversified groups of microbes are present and potentially active in historically desiccated soils, which might be of importance in the context of microbial ecology.