Add to ORKGViruses are critical for regulating microbial communities and biogeochemical processes affecting carbon/nutrient cycling. However, the role of soil phages in controlling microbial physiological traits and intrinsic dissolved organic matter (DOM) properties remains largely unknown. Herein, microcosm experiments with different soil phage concentrates (including no-added phages, inactive phages, and three dilutions of active phages) at two temperatures (15 °C and 25 °C) were conducted to disclose the nutrient and DOM dynamics associated with viral lysing. Results demonstrated three different phases of viral impacts on CO2 emission at both temperatures, and phages played a role in maintaining Q10 within bounds. At both temperatures, microbial n...
The trophic interactions between viruses, bacteria and protists play a crucial role in structuring m...
Microbiomes and their hosts influence each other; for instance, the microbiome improves host fitness...
As abundant members of microbial communities, viruses impact microbial mortality, carbon and nutrien...
Microbial mineralization of dissolved organic matter (DOM) plays an important role in regulating C a...
Viruses are the most abundant biological entities in the world, but their ecological functions in so...
Summary Rapidly thawing permafrost harbors ~30–50% of global soil carbon, and the fate of this carbo...
Microorganisms play a fundamental role driving geochemical cycles. Viruses are the most abundant bio...
Rapidly thawing permafrost harbors ∼30 to 50% of global soil carbon, and the fate of this carbon rem...
Viruses are abundant, ubiquitous members of soil communities that kill microbial cells, but how they...
Climate change threatens to release abundant carbon that is sequestered at high latitudes, but the c...
Climate change threatens to release abundant carbon that is sequestered at high latitudes, but the c...
While decomposition of organic matter by bacteria plays a major role in nutrient cycling in terrestr...
Soil biomes encompass a number of diverse organisms. The interactions of viruses with organisms from...
Bacterial viruses, also known as phages, are intrinsic components of the Earth’s Critical Zone (CZ)....
The concentration of atmospheric methane (CH4) continues to increase with microbial communities cont...
The trophic interactions between viruses, bacteria and protists play a crucial role in structuring m...
Microbiomes and their hosts influence each other; for instance, the microbiome improves host fitness...
As abundant members of microbial communities, viruses impact microbial mortality, carbon and nutrien...
Microbial mineralization of dissolved organic matter (DOM) plays an important role in regulating C a...
Viruses are the most abundant biological entities in the world, but their ecological functions in so...
Summary Rapidly thawing permafrost harbors ~30–50% of global soil carbon, and the fate of this carbo...
Microorganisms play a fundamental role driving geochemical cycles. Viruses are the most abundant bio...
Rapidly thawing permafrost harbors ∼30 to 50% of global soil carbon, and the fate of this carbon rem...
Viruses are abundant, ubiquitous members of soil communities that kill microbial cells, but how they...
Climate change threatens to release abundant carbon that is sequestered at high latitudes, but the c...
Climate change threatens to release abundant carbon that is sequestered at high latitudes, but the c...
While decomposition of organic matter by bacteria plays a major role in nutrient cycling in terrestr...
Soil biomes encompass a number of diverse organisms. The interactions of viruses with organisms from...
Bacterial viruses, also known as phages, are intrinsic components of the Earth’s Critical Zone (CZ)....
The concentration of atmospheric methane (CH4) continues to increase with microbial communities cont...
The trophic interactions between viruses, bacteria and protists play a crucial role in structuring m...
Microbiomes and their hosts influence each other; for instance, the microbiome improves host fitness...
As abundant members of microbial communities, viruses impact microbial mortality, carbon and nutrien...