MGYS00001664: Ammonia oxidizing microorganisms are an important source of nitrous oxide (N2O) in aquatic environments AquaticBiomeCaused by climate changeCC relation typeOcean acidificationRelated phenomenon
MGYS00001663: Acidification and warming affect prominent bacteria during two seasonal phytoplankton bloom mesocosms AquaticBiomeCaused by climate changeCC relation typeElevated CO2 levelsRelated phenomenonTemperature rise
MGYS00001632: The Usefulness and Reproducibility of Pyrosequencing for the Analysis of a Microbial Community of a Methane-Oxidizing Biofilm BiomeBioreactorCC relation typeEngineeredMethanotrophyMitigating climate changeRelated phenomenon
MGYS00001622: Integrated ‘omics’, targeted metabolite and single-cell analyses of Arctic snow algae functionality and adaptability AquaticBiomeCaused by climate changeCausing climate changeCC relation typePermafrost thawingRelated phenomenon
MGYS00001619: Sulfate reducing and methanogenic microbial community structure in Outokumpu deep bedrock fracture zones BiomeCausing climate changeCC relation typeMethane productionMitigating climate changeRelated phenomenonSulfate reductionTerrestrial
MGYS00001610: biogas BiomeCausing climate changeCC relation typeEngineeredMethane productionRelated phenomenonWastewater
MGYS00001546: The dynamic bacterial communities of a melting High Arctic glacier snowpack AquaticBiomeCaused by climate changeCC relation typePermafrost thawingRelated phenomenon
MGYS00001528: Sedimentary ancient DNA over a period of last ~14,500 years AquaticBiomeCaused by climate changeCC relation typeRelated phenomenonShifts in ecosystems and species distributions
MGYS00001501: 18S rRNA genes from benthic Antarctic sediments AquaticBiomeCaused by climate changeCC relation typeRelated phenomenonShifts in ecosystems and species distributions
MGYS00001489: 16S rRNA genes from benthic Antarctic sediments AquaticBiomeCaused by climate changeCC relation typeRelated phenomenonShifts in ecosystems and species distributions
