Phylum Gemmatimonadota and its role in the environment
Bacteria are an important part of every ecosystem that they inhabit on Earth. Environmental
microbiologists usually focus on a few dominant bacterial groups, neglecting less abundant …
microbiologists usually focus on a few dominant bacterial groups, neglecting less abundant …
Genomics and ecology of novel N2O-reducing microorganisms
Microorganisms with the capacity to reduce the greenhouse gas nitrous oxide (N 2 O) to
harmless dinitrogen gas are receiving increased attention due to increasing N 2 O …
harmless dinitrogen gas are receiving increased attention due to increasing N 2 O …
Microplastics change soil properties, heavy metal availability and bacterial community in a Pb-Zn-contaminated soil
Microplastics (MPs) co-occur widely with diverse contaminants in soils. However, few data
are available on their impacts on soil chemical and microbial properties of heavy metal …
are available on their impacts on soil chemical and microbial properties of heavy metal …
Determining how oxygen legacy affects trajectories of soil denitrifier community dynamics and N2O emissions
Denitrification–a key process in the global nitrogen cycle and main source of the
greenhouse gas N2O–is intricately controlled by O2. While the transition from aerobic …
greenhouse gas N2O–is intricately controlled by O2. While the transition from aerobic …
Multi-environment ecogenomics analysis of the cosmopolitan phylum Gemmatimonadota
Gemmatimonadota is a diverse bacterial phylum commonly found in environments such as
soils, rhizospheres, fresh waters, and sediments. So far, the phylum contains just six cultured …
soils, rhizospheres, fresh waters, and sediments. So far, the phylum contains just six cultured …
Beyond denitrification: the role of microbial diversity in controlling nitrous oxide reduction and soil nitrous oxide emissions
Many biotic and abiotic processes contribute to nitrous oxide (N2O) production in the
biosphere, but N2O consumption in the environment has heretofore been attributed primarily …
biosphere, but N2O consumption in the environment has heretofore been attributed primarily …
Dual Regulatory Role of Penicillium oxalicum SL2 in Soil: Phosphorus Solubilization and Pb Stabilization
J Tong, H Wu, X Jiang, C Ruan, W Li… - Environmental …, 2023 - ACS Publications
The mechanisms of the P. oxalicum SL2-mediated microbial community on phosphorus
solubilization and Pb stabilization were investigated through a 90-day soil experiment. In the …
solubilization and Pb stabilization were investigated through a 90-day soil experiment. In the …
[HTML][HTML] Biochar amendment controlled bacterial wilt through changing soil chemical properties and microbial community
S Chen, G Qi, G Ma, X Zhao - Microbiological research, 2020 - Elsevier
Long-term continuous crop** has led to epidemic of bacterial wilt disease in Southern
China. Bacterial wilt disease is caused by Ralstonia solanacearum and difficult to control. In …
China. Bacterial wilt disease is caused by Ralstonia solanacearum and difficult to control. In …
Arbuscular mycorrhizal fungi reduce nitrous oxide emissions from N2O hotspots
Nitrous oxide (N2O) is a potent, globally important, greenhouse gas, predominantly released
from agricultural soils during nitrogen (N) cycling. Arbuscular mycorrhizal fungi (AMF) form a …
from agricultural soils during nitrogen (N) cycling. Arbuscular mycorrhizal fungi (AMF) form a …
[HTML][HTML] Active assimilators of soluble microbial products produced by wastewater anammox bacteria and their roles revealed by DNA-SIP coupled to metagenomics
Heterotrophic bacteria grow on influent organics or soluble microbial products (SMP) in
wastewater anammox processes, playing key roles in facilitating microbial aggregation and …
wastewater anammox processes, playing key roles in facilitating microbial aggregation and …