[HTML][HTML] How methanotrophs respond to pH: a review of ecophysiology
Varying pH globally affects terrestrial microbial communities and biochemical cycles.
Methanotrophs effectively mitigate methane fluxes in terrestrial habitats. Many …
Methanotrophs effectively mitigate methane fluxes in terrestrial habitats. Many …
Untapped talents: insight into the ecological significance of methanotrophs and its prospects
EO Fenibo, R Selvarajan, H Wang, Y Wang… - Science of The Total …, 2023 - Elsevier
The deep ocean is a rich reservoir of unique organisms with great potential for
bioprospecting, ecosystem services, and the discovery of novel materials. These organisms …
bioprospecting, ecosystem services, and the discovery of novel materials. These organisms …
Methane-derived carbon flows into host–virus networks at different trophic levels in soil
The concentration of atmospheric methane (CH4) continues to increase with microbial
communities controlling soil–atmosphere fluxes. While there is substantial knowledge of the …
communities controlling soil–atmosphere fluxes. While there is substantial knowledge of the …
Multitask Deep Learning Enabling a Synergy for Cadmium and Methane Mitigation with Biochar Amendments in Paddy Soils
Biochar has demonstrated significant promise in addressing heavy metal contamination and
methane (CH4) emissions in paddy soils; however, achieving a synergy between these two …
methane (CH4) emissions in paddy soils; however, achieving a synergy between these two …
Higher pH is associated with enhanced co‐occurrence network complexity, stability and nutrient cycling functions in the rice rhizosphere microbiome
The rice rhizosphere microbiota is crucial for crop yields and nutrient use efficiency.
However, little is known about how co‐occurrence patterns, keystone taxa and functional …
However, little is known about how co‐occurrence patterns, keystone taxa and functional …
DNA stable-isotope probing highlights the effects of temperature on functionally active methanotrophs in natural wetlands
Microbial methane (CH 4) oxidation is a major global sink of CH 4. Aerobic CH 4-oxidizing
bacteria (methanotrophs) represent a biological model system for CH 4 consumption and is …
bacteria (methanotrophs) represent a biological model system for CH 4 consumption and is …
Methane oxidation activity inhibition via high amount aged biochar application in paddy soil
Q Nan, S Hu, Y Qin, W Wu - Science of the Total Environment, 2021 - Elsevier
Fresh biochar application has been recommended as an effective strategy to mitigate
methane emissions from paddy soil due to its role in promoting potential methane oxidation …
methane emissions from paddy soil due to its role in promoting potential methane oxidation …
Asymmetric response of soil methane uptake rate to land degradation and restoration: Data synthesis
J Wu, Q Chen, W Jia, C Long, W Liu, G Liu… - Global Change …, 2020 - Wiley Online Library
Land degradation and restoration profoundly affect soil CH4 uptake capacity in terrestrial
ecosystems. However, a comprehensive assessment of the response of soil CH4 uptake to …
ecosystems. However, a comprehensive assessment of the response of soil CH4 uptake to …
Response of a methane-driven interaction network to stressor intensification
Microorganisms may reciprocally select for specific interacting partners, forming a network
with interdependent relationships. The methanotrophic interaction network, comprising …
with interdependent relationships. The methanotrophic interaction network, comprising …
Recovery of methanotrophic activity is not reflected in the methane-driven interaction network after peat mining
Aerobic methanotrophs are crucial in ombrotrophic peatlands, driving the methane and
nitrogen cycles. Peat mining adversely affects methanotrophs, but activity and community …
nitrogen cycles. Peat mining adversely affects methanotrophs, but activity and community …