Capture of Methane by Fungi: Evidence from Laboratory-Scale Biofilter and Chromatographic Isotherm Studies

Abstract: ABSTRACT. Livestock production accounts for a third of total U.S. anthropogenic methane (CH 4

“…The higher EC obtained in the FBB operated in this study may be explained by the increase in the interfacial gas-biofilm contact area due to the presence of the filaments from fungi [30] and by the increase in the CH4 concentration gradient mediated by the hydrophobic properties of the fungal filaments [11,31]. These fungal mediated mechanisms could increase the bioavailability of methane in the whole methanotrophic biofilm, which ultimately supported higher CH4 degradation rates [14]. The later highlights the advantage of deploying methanotrophic fungal/bacterial consortia during CH4 biofiltration [11].…”

“…The potential of fungi as a biological platform for enhancing the availability and biodegradation of methane has been reported by several authors [11][12][13][14]. Girard et al [12] inoculated the fungi Candida ingens, Sporotrichum pruinosum, Coprinus sp.…”

A comparative assessment of the performance of fungal-bacterial and fungal biofilters for methane abatement

“…The higher EC obtained in the FBB operated in this study may be explained by the increase in the interfacial gas-biofilm contact area due to the presence of the filaments from fungi [30] and by the increase in the CH4 concentration gradient mediated by the hydrophobic properties of the fungal filaments [11,31]. These fungal mediated mechanisms could increase the bioavailability of methane in the whole methanotrophic biofilm, which ultimately supported higher CH4 degradation rates [14]. The later highlights the advantage of deploying methanotrophic fungal/bacterial consortia during CH4 biofiltration [11].…”

“…The potential of fungi as a biological platform for enhancing the availability and biodegradation of methane has been reported by several authors [11][12][13][14]. Girard et al [12] inoculated the fungi Candida ingens, Sporotrichum pruinosum, Coprinus sp.…”

A comparative assessment of the performance of fungal-bacterial and fungal biofilters for methane abatement

“…An effective climate-change mitigation strategy must include reduction in emission of greenhouse gases (GHGs), including methane. Oliver and Schilling (2016), using a lab-scale biofilter, show that several fungal species are capable of capturing methane from livestock operations. The authors conclude that GHG emission from livestock operations can be considerably mitigated.…”

Climate Change: A Call for Adaptation and Mitigation Strategies

“…Likewise, pilot studies indicate biofiltration as a potential low-cost CH 4 abatement technique in the livestock sector (Fedrizzi et al, 2018, Oliver and Schilling, 2016, Melse and Van Der Werf, 2005. This is because, in contrast to catalytic CH 4 treatment, which require complex combustion units with higher operating temperatures (> 400 • C) and inlet CH 4 concentrations (> 5000 ppm) to effectively function (He et al, 2020), biofiltration systems are easier to design and can function at ambient temperature (< 30 • C), atmospheric pressure, and relatively low inlet CH 4 concentrations (Melse and Hol, 2017).…”

Effect of Cubicle Hood System on Methane Concentrations Around the Lying Area in Cold Climate Dairy Cattle Buildings