Methane-oxidizing archaea, aerobic methanotrophs and nitrifiers coexist with methane as the sole carbon source

Methane-oxidizing archaea, aerobic methanotrophs and nitrifiers coexist with methane as the sole carbon source

R. B. Costa, D. Y. Okada, T. P. Delforno, E. Foresti

ARTIGO

Inglês

Methane oxidation plays a key role in carbon and nutrient cycling and has the potential to be applied in engineered bioprocesses, including wastewater and gas treatments. To provide insights into the dynamics of the methanotrophic community under microoxic and anoxic conditions, two sequencing batch...

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP

Fechado

Methane-oxidizing archaea, aerobic methanotrophs and nitrifiers coexist with methane as the sole carbon source

R. B. Costa, D. Y. Okada, T. P. Delforno, E. Foresti


										

Methane-oxidizing archaea, aerobic methanotrophs and nitrifiers coexist with methane as the sole carbon source

R. B. Costa, D. Y. Okada, T. P. Delforno, E. Foresti

    Fontes

    International biodeterioration and biodegradation

    Vol. 138 (Mar., 2019), p. 57-62