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Capture of Methane by Fungi: Evidence from Laboratory-Scale Biofilter and Chromatographic Isotherm Studies
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2016
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Biomass UtilizationEnvironmental ChemistryChromatographic Isotherm StudiesSeveral Fungal SpeciesFungal BiomassFungal MaterialsEngineeringEnvironmental EngineeringBiogasBioremediationLaboratory-scale BiofilterMicrobial EcologyEnvironmental MicrobiologyMicrobiologyMedicineCoal Bed MethaneMicrobiological Degradation
<abstract> <b><sc>Abstract.</sc></b> Livestock production accounts for a third of total U.S. anthropogenic methane (CH<sub>4</sub>) emissions. Mitigating these greenhouse gas (GHG) emissions is central to efforts aimed at curbing near-term climate change, but low-cost, practical technologies are needed to reduce fugitive CH<sub>4</sub> from farms. Biofilters have mitigation potential, but current designs for odor are limited in their ability to capture CH<sub>4</sub>. Fungi have been shown to improve capture of hard-to-target gases in other biofilter applications and were investigated here for their ability to capture CH<sub>4</sub>. Using a lab-scale biofilter, several fungal species were shown to improve CH<sub>4</sub> capture compared to a bacterial system and sterile control. A subsequent experiment with found capture to increase with increasing levels of fungal biomass. Using a chromatographic isotherm, the ability of fungal materials to sorb CH<sub>4</sub> was confirmed, and again greater sorption of CH<sub>4</sub> was possible when fungal biomass was increased. These results demonstrate the ability of fungi to capture CH<sub>4</sub> and warrant their investigation as a way to improve the CH<sub>4</sub> mitigation capacity of livestock emission biofilters.