Add to ORKGThe deep terrestrial biosphere harbours a substantial fraction of Earth's biomass and remains understudied compared with other ecosystems. Deep biosphere life primarily consists of bacteria and archaea, yet knowledge of their co-occurring viruses is poor. Here, we temporally catalogued viral diversity from five deep terrestrial subsurface locations (hydraulically fractured wells), examined virus-host interaction dynamics and experimentally assessed metabolites from cell lysis to better understand viral roles in this ecosystem. We uncovered high viral diversity, rivalling that of peatland soil ecosystems, despite low host diversity. Many viral operational taxonomic units were predicted to infect Halanaerobium, the dominant microorganism in t...
The ecological drivers that concurrently act upon both a virus and its host and that drive community...
Viruses play an essential role in shaping microbial community structures and serve as reservoirs for...
Viruses impact nearly all organisms on Earth, with ripples of influence in agriculture, health, and ...
The deep terrestrial biosphere harbours a substantial fraction of Earth's biomass and remains unders...
The continental subsurface houses a major portion of life's abundance and diversity, yet little is k...
Many microbes in nature reside in dense, metabolically interdependent communities. We investigated t...
Viruses are the most ubiquitous biological entities on Earth. Even so, elucidating the impact of vir...
The deep biosphere contains members from all three domains of life along with viruses. Here we inves...
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...
Virus-host dynamics is poorly understood in natural systems, despite known viral influences on host ...
Summary Rapidly thawing permafrost harbors ~30–50% of global soil carbon, and the fate of this carbo...
Viruses shape microbial community structure and function by altering the fitness of their hosts and ...
Viruses are key members of Earth's microbiomes, shaping microbial community composition and metaboli...
Our current knowledge of host-virus interactions in biofilms is limited to computational predictions...
The ecological drivers that concurrently act upon both a virus and its host and that drive community...
Viruses play an essential role in shaping microbial community structures and serve as reservoirs for...
Viruses impact nearly all organisms on Earth, with ripples of influence in agriculture, health, and ...
The deep terrestrial biosphere harbours a substantial fraction of Earth's biomass and remains unders...
The continental subsurface houses a major portion of life's abundance and diversity, yet little is k...
Many microbes in nature reside in dense, metabolically interdependent communities. We investigated t...
Viruses are the most ubiquitous biological entities on Earth. Even so, elucidating the impact of vir...
The deep biosphere contains members from all three domains of life along with viruses. Here we inves...
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...
Virus-host dynamics is poorly understood in natural systems, despite known viral influences on host ...
Summary Rapidly thawing permafrost harbors ~30–50% of global soil carbon, and the fate of this carbo...
Viruses shape microbial community structure and function by altering the fitness of their hosts and ...
Viruses are key members of Earth's microbiomes, shaping microbial community composition and metaboli...
Our current knowledge of host-virus interactions in biofilms is limited to computational predictions...
The ecological drivers that concurrently act upon both a virus and its host and that drive community...
Viruses play an essential role in shaping microbial community structures and serve as reservoirs for...
Viruses impact nearly all organisms on Earth, with ripples of influence in agriculture, health, and ...