Changes in peat chemistry associated with permafrost thaw increase greenhouse gas productionOptimization of viral resuspension methods for carbon-rich soils along a permafrost thaw gradientDiscovery of a novel methanogen prevalent in thawing permafrost.Design and testing of 'genome-proxy' microarrays to profile marine microbial communities.Methane-oxidizing bacteria in a California upland grassland soil: diversity and response to simulated global change.Marine microbial communities of the Great Barrier Reef lagoon are influenced by riverine floodwaters and seasonal weather events.Diuron tolerance and potential degradation by pelagic microbiomes in the Great Barrier Reef lagoonTime-series analyses of Monterey Bay coastal microbial picoplankton using a 'genome proxy' microarray.Microbial network, phylogenetic diversity and community membership in the active layer across a permafrost thaw gradient.Methane dynamics regulated by microbial community response to permafrost thaw.Clean Low-Biomass Procedures and Their Application to Ancient Ice Core Microorganisms.Genome-centric view of carbon processing in thawing permafrostMethanotrophy across a natural permafrost thaw environmentHydrogenation of organic matter as a terminal electron sink sustains high CO 2 :CH 4 production ratios during anaerobic decompositionSoil Viruses Are Underexplored Players in Ecosystem Carbon ProcessingSoil incubations reproduce field methane dynamics in a subarctic wetlandAdding stable carbon isotopes improves model representation of the role of microbial communities in peatland methane cyclingOptimizing genome assembly from PCR-amplified metagenomesDiscovery and ecogenomic context of a global Caldiserica-related phylum active in thawing permafrost, Candidatus Cryosericota phylum nov., Ca. Cryosericia class nov., Ca. Cryosericales ord. nov., Ca. Cryosericaceae fam. nov., ...Climate change microbiology - problems and perspectivesScientists' warning to humanity: microorganisms and climate change
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Virginia I. Rich
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Virginia I. Rich
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