Bonneville / Bradford / New York / Allison / Edinburgh / /
Company
M (Baani and Liesack 2008) CH3 CO / CH3 CO / Coleman / /
Country
Germany / Italy / France / United States / United Kingdom / Spain / / /
Event
Product Issues / Environmental Issue / /
Facility
Institute of Cell Biology / University of Edinburgh / /
IndustryTerm
steady-state solutions / redox-cycling systems / latter chemical species / intermediate chemical states / chemical dynamics / chemical diffusion / chemical transport / chemical species / diverse systems / energy / intracellular biochemical signaling networks / co-occurrence networks / oxidized chemical species / energy source / chemical element / chemical sinks / oxidative and reductive chemical fluxes / chemical / chemical states / steady-state solution / highthroughput sequencing technology / /
European Geosciences Union / School of Physics and Astronomy / US Army Research Office / University of Edinburgh / School of Biological Sciences / European Union / Institute of Cell Biology / /
Person
Justin Whitehouse / Nat / Patrick Warren / Van Cappellen / Ka / Jan Haeberle / Charles Cockell / Diaz / Casey Bryce / Sophie Nixon / Bush / /
Biogeosciences, 12, 3713–3724, 2015 www.biogeosciences.netdoi:bg © Author(sCC Attribution 3.0 License. Redox regime shifts in microbially mediated biogeochemical cycles