Polysaccharide degradation by the Bacteroidetes: mechanisms and nomenclature
The Bacteroidetes phylum is renowned for its ability to degrade a wide range of complex
carbohydrates, a trait that has enabled its dominance in many diverse environments. The …
carbohydrates, a trait that has enabled its dominance in many diverse environments. The …
Root colonization by beneficial rhizobacteria
Rhizosphere microbes play critical roles for plant's growth and health. Among them, the
beneficial rhizobacteria have the potential to be developed as the biofertilizer or …
beneficial rhizobacteria have the potential to be developed as the biofertilizer or …
Dynamic root microbiome sustains soybean productivity under unbalanced fertilization
M Wang, AH Ge, X Ma, X Wang, Q Xie, L Wang… - Nature …, 2024 - nature.com
Root-associated microbiomes contribute to plant growth and health, and are dynamically
affected by plant development and changes in the soil environment. However, how different …
affected by plant development and changes in the soil environment. However, how different …
Importance of Bacteroidetes in host–microbe interactions and ecosystem functioning
Bacteroidetes are prevalent in soil ecosystems and are associated with various eukaryotic
hosts, including plants, animals, and humans. The ubiquity and diversity of Bacteroidetes …
hosts, including plants, animals, and humans. The ubiquity and diversity of Bacteroidetes …
[HTML][HTML] A first-year melon/cowpea intercropping system improves soil nutrients and changes the soil microbial community
The melon/cowpea intercropping system can be a specific and efficient cropping pattern in a
horticultural field. Intercropping systems contribute to the optimization of land use, fostering …
horticultural field. Intercropping systems contribute to the optimization of land use, fostering …
Grassland responses to elevated CO2 determined by plant–microbe competition for phosphorus
Rising atmospheric CO2 has stimulated plant productivity, with terrestrial ecosystems
currently absorbing nearly one-third of anthropogenic CO2 emissions. Increases in …
currently absorbing nearly one-third of anthropogenic CO2 emissions. Increases in …
Strategies of organic phosphorus recycling by soil bacteria: acquisition, metabolism, and regulation
Y Park, M Solhtalab, W Thongsomboon… - Environmental …, 2022 - Wiley Online Library
Critical to meeting cellular phosphorus (P) demand, soil bacteria deploy a number of
strategies to overcome limitation in inorganic P (Pi) in soils. As a significant contributor to P …
strategies to overcome limitation in inorganic P (Pi) in soils. As a significant contributor to P …
A widely distributed phosphate-insensitive phosphatase presents a route for rapid organophosphorus remineralization in the biosphere
IDEA Lidbury, DJ Scanlan… - Proceedings of the …, 2022 - National Acad Sciences
The regeneration of bioavailable phosphate from immobilized organophosphorus
represents a key process in the global phosphorus cycle and is facilitated by enzymes …
represents a key process in the global phosphorus cycle and is facilitated by enzymes …
Phosphorus availability influences disease-suppressive soil microbiome through plant-microbe interactions
Y Cao, Z Shen, N Zhang, X Deng, LS Thomashow… - Microbiome, 2024 - Springer
Background Soil nutrient status and soil-borne diseases are pivotal factors impacting
modern intensive agricultural production. The interplay among plants, soil microbiome, and …
modern intensive agricultural production. The interplay among plants, soil microbiome, and …
PCycDB: a comprehensive and accurate database for fast analysis of phosphorus cycling genes
Background Phosphorus (P) is one of the most essential macronutrients on the planet, and
microorganisms (including bacteria and archaea) play a key role in P cycling in all living …
microorganisms (including bacteria and archaea) play a key role in P cycling in all living …