As part of the Pacific Northwest National Laboratory’s (PNNL) Science Focus Area program, we are investigating the impact of environmental change on microbial community function in grassland soils. Three grassland soils, representing different moisture regimes, were selected for ultra-deep...
Filter results
Content type
Tags
- (-) Metagenomics (3)
- (-) soil microbiology (1)
- Soil Microbiology (9)
- Microbiome (4)
- Omics (4)
- sequencing (4)
- Fungi (3)
- PerCon SFA (3)
- Viruses (3)
- Genomics (2)
- Synthetic Biology (2)
- BSRN (1)
- Diffuse (1)
- Direct (1)
- DSCOVR (1)
- EPIC (1)
- Imaging (1)
- Mass Spectrometry (1)
- metagenomics (1)
- microbiome (1)
- microbiome stability (1)
- PAR (1)
- Sequencing (1)
- Shortwave Radiation (1)
- soil respiration (1)
- spatial variability (1)
- species volatility (1)
- Spectroscopy (1)
- SURFRAD (1)
- temperate forest (1)
Showing 1 - 4 of 4
Viral communities detected from three large grassland soil metagenomes with historically different precipitation moisture regimes.
Category
"DNA Viral Diversity, Abundance, and Functional Potential Vary across Grassland Soils with a Range of Historical Moisture Regimes" Soil viruses are abundant, but the influence of the environment and climate on soil viruses remains poorly understood. Here, we addressed this gap by comparing the...
Category
"Moisture modulates soil reservoirs of active DNA and RNA viruses" Soil is known to harbor viruses, but the majority are uncharacterized and their responses to environmental changes are unknown. Here, we used a multi-omics approach (metagenomics, metatranscriptomics and metaproteomics) to detect...