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DNA Viral Diversity, Abundance, and Functional Potential Vary across Grassland Soils with a Range of Historical Moisture Regimes

Ruonan Wu, Michelle R. Davison, William C. Nelson, Emily B. Graham, Sarah J. Fansler, Yuliya Farris, Sheryl L. Bell, Iobani Godinez, Jason E. Mcdermott, Kirsten S. Hofmockel, Janet K. Jansson

2021mBio66 citationsDOIOpen Access PDF

Abstract

Soil viruses are abundant but poorly understood. Because soil viruses regulate the dynamics of their hosts and potentially key processes in soil ecology, it is important to understand them better. Here, we leveraged massive DNA sequencing to unearth previously unknown soil viruses. We found that soil viruses differed across a historical gradient of precipitation. We compared soil viruses from Iowa, which is traditionally wetter, to those from Washington, which is traditionally drier, and from Kansas, which is intermediate. This study provides strong evidence that changes in historical precipitation impact not only the types of soil viruses but also their functional potential.

Topics & Concepts

BiologyAbiotic componentLysogenic cycleSoil waterGrasslandHuman viromeViral evolutionViral replicationRange (aeronautics)MetagenomicsSoil microbiologyEcologyBacteriophageAbundance (ecology)PrecipitationSoil carbonEcosystemMicrobial population biologyArchaeaPlant virusBiodiversityGeomicrobiologyReplicateSoil ecologySoil bacteriaSelection (genetic algorithm)Host (biology)Viral infectionWater contentGenomeRelative species abundanceMicrobial ecologyAridProchlorococcusCarbon cycleBacteriaEdaphologySoil testBacterial virusSiphoviridaeBacteriophages and microbial interactionsSoil Carbon and Nitrogen DynamicsFecal contamination and water quality
DNA Viral Diversity, Abundance, and Functional Potential Vary across Grassland Soils with a Range of Historical Moisture Regimes | Litcius