Dynamic root exudate chemistry and microbial substrate preferences drive patterns
in rhizosphere microbial community assembly — Kateryna Zhalnina — Nature Microbiology
Siderophores are very important for a plant growth - promoting bacteria (PGPB), since they fulfill relevant activities
in the rhizosphere to promote plant growth and control phytopathogens (20,21).
This analysis suggested that the key to success for microbes that thrived
in the rhizosphere was their diet.
The study, «Dynamic root exudate chemistry and microbial substrate preferences drive patterns
in rhizosphere microbial community assembly,» has just been published in the journal Nature Microbiology.
Bacterial diversity and community structure
in the rhizosphere of four Ferula species — Xiuling Wang — Scientific Reports
We demonstrated the ability of ultra-fast tomography to quantitatively image quick changes of water content
in the rhizosphere and outlined the value of such imaging data for 3D water uptake modelling.
Production of exudates also affects how well the plants can pull vital nutrients out of the soil, and even affects the soil
in the rhizosphere.
Not exact matches
It also meant that I could continue my studies
in plant - soil interrelationships and investigate the fascinating zone of the root - soil interface, known as the
rhizosphere.
To find out how the various chemicals
in root exudate affect the
rhizosphere, Zhalnina et al. examined the wild oat grass Avena barbata.
Plant roots
in soil are often regions of high microbial activity, known as
rhizospheres, where symbiosis between plants and microbes promote plant growth.
The next step
in the research was to sample the
rhizosphere, the soil
in the region around the roots of rice plants growing
in the field, to reveal the microbial community living there and to attempt to elucidate their roles.
Characterization of halotolerant, pigmented, plant growth promoting bacteria of groundnut
rhizosphere and its
in - vitro evaluation of plant - microbe protocooperation to withstand salinity and metal stress — Avishek Banik — Science of The Total Environment
Composition and diversity of
rhizosphere fungal community
in Coptis chinensis Franch.
Subterranean infestation by Holotrichia parallela larvae is associated with changes
in the peanut (Arachis hypogaea L.)
rhizosphere microbiome — Li - Li Geng — Microbiological Research
Pseudomonas fluorescens UM270 is a
rhizosphere - colonizing bacterium that produces multiple diffusible and volatile compounds involved
in plant growth - promoting activities.
Biofilm formation has been previously reported for the strain UM270, where its production might be playing an essential role
in root attachment and
rhizosphere colonization (11,33).
Rojas - Solís D, Hernández - Pacheco CE, Santoyo G. Evaluation of Bacillus and Pseudomonas to colonize the
rhizosphere and their effect on growth promotion
in tomato (Physalis ixocarpa Brot.
From these unique UM270 genes, a set of 192 CDSs was found to be involved
in signaling,
rhizosphere colonization and competence, highlighted as important traits to achieve an effective biocontrol and plant growth promotion.
Several functions vary among the members of this group of bacteria, such as metabolism of nitrogen, respiration, cell wall and capsule, stress response, secondary metabolite biosynthesis, regulation and cell signaling; this variation
in gene functions could help us understand the ability of colonization and adaptability of these
rhizosphere - colonizing bacteria.
Specificity
in Arabidopsis thaliana recruitment of root fungal communities from soil and
rhizosphere — Hector Urbina — Fungal Biology
Biofilm formation is determinant
in tomato
rhizosphere colonization by Bacillus velezensis FZB42 — Ameen Al - Ali — Environmental Science and Pollution Research
At PBE2018 Harro Bouwmeester will give a talk on: «The role of plant host
rhizosphere signalling
in root microbiome recruitment»