Thaumarchaeota (now the class Nitrososphaeria in the phylum Thermoproteota in GTDB
taxonomy) are abundant across marine and soil habitats; however, their genomic diversity …

Thaumarchaeota constitute an abundant and ubiquitous phylum of Archaea that play critical
roles in the global nitrogen and carbon cycles. Most well-characterized members of the …

Interactions between plant roots and rhizosphere bacteria modulate nitrogen (N)-cycling
processes and create habitats rich in low molecular weight compounds (exudates) and …

A central question in microbial ecology is how immense microbes are assembled in
changing natural environments while executing critical ecosystem functions. Over the past …

Coastal upwelling regions are hotspots of biological productivity, supporting diverse
communities of microbial life and metabolisms. Monterey Bay (MB), a coastal ocean …

The mechanisms by which large-scale microbial community function emerges from complex
ecological interactions between individual taxa and functional groups remain obscure. We …

Coastal mudflats reclamation activities show a strong influence on soil properties and
microbial community activity, which drive soil carbon and nitrogen cycling. Studies have …

Nitrification plays a key role in marine ecosystems where Thaumarchaeota are thought to be
responsible for most of the ammonia oxidation in the water column. Over a 2‐yr, near …

Marine oxygen minimum zones play a crucial role in the global oceanic carbon, nitrogen,
and sulfur cycles as they harbor microbial communities that are adapted to the water column …

Thaumarchaeota are among the most abundant prokaryotes in the ocean, playing important
roles in carbon and nitrogen cycling. Marine Thaumarchaeota ecotypes exhibit depth …