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The ecology and biogeochemistry of sulfate reduction in the terrestrial subsurface.
(1999)
I believe that the ubiquity and importance of sulfate reduction in subsurface environments is a reflection of the diversity of the hydrological and biogeochemical processes which contribute to the availability of sulfate. ...
Responses of Terrestrial Biogeochemical Cycles to Global Change – Syntheses and Data-Model Integration
(2016-12)
Global observations and model simulations show that atmospheric carbon dioxide (CO2) concentrations and surface temperatures have been and will keep increasing. These environmental changes have significant influences on ...
Microbiology of water and wastewater: Discovery of a new genus numerically dominant in municipal wastewater and antimicrobial resistances in numerically dominant bacteria from Oklahoma lakes.
(2005)
Three bacterial isolates from municipal wastewater were investigated for their phenotypic, biochemical, and molecular characters. All strains were isolated from municipal wastewater, and the type strain, NRS1T, was isolated ...
RESPONSES OF TOTAL AND ACTIVE SOIL MICROBIAL COMMUNITIES TO CLIMATE WARMING
(2019-12)
As illustrated by accumulating scientific evidence, unconscionable anthropogenic activities since industrialization such as intensive land utilization and accumulation of various greenhouse gases due to fossil fuel combustion ...
AN INVESTIGATION INTO THE INFLUENCE OF SUBSURFACE GEOCHEMISTRY ON MICROBIAL COMMUNITIES IN AN UNCONFINED CONTAMINATED AQUIFER
(2018)
Microorganisms account for ~ 90 gigatons of carbon in terms of global biomass and are important drivers of elemental cycling especially in oligotrophic subsurface environments. Subsurface ecosystems remain poorly characterized ...
Genes required for sediment fitness in Desulfovibrio desulfuricans G20.
(2007)
97 genes required for sediment fitness of G20 were identified and the identification of chemotaxis genes validated our STM screening method since it would be expected to enhance sediment fitness. The growth of these sediment ...
Culture-independent characterization of methane-oxidizing microbial communities in unexplored extreme environments
(2021-08-05)
Methane is the second most abundant greenhouse gas in atmosphere. With increasing emissions and more effective in trapping heat than CO2, it contributes up to ~20% of total global warming. Methanotrophs playing a critical ...