Add to ORKGInfluence of rhizobacterial volatiles on the root system architecture and the production and allocation of biomass in the model grass Brachypodium distachyon (L.) P. Beauv
The rhizosphere of land plants is a diverse and complex environment that is critical to the life cyc...
Additional contributors: John Sedbrook; Zachary Blankenheim; David Garvin (faculty mentor)Plant biom...
Bacteria release a wide range of volatile compounds that play important roles in intermicrobial and ...
Background Plant growth-promoting rhizobacteria are increasingly being seen as a way of complementi...
Plant growth-promoting rhizobacteria are increasingly considered as a complement of conventional inp...
Plant growth-promoting rhizobacteria are increasingly considered as a complement of conventional inp...
Impact of individual strain volatile compounds on Total Secondary Root Length (A), Total Adventitiou...
Rhizobacterial volatile organic compounds modulate biomass production and root architectur
The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. There is s...
The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. There is s...
Bacteria release a wide range of volatile compounds that play important roles in intermicrobial and ...
The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. There is s...
<div><p>The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. Th...
Volatile organic compounds emitted by plants are known to intervene with various biotic environmenta...
Water stress is one of the major environmental factors limiting the crop productivity . Plant stress...
The rhizosphere of land plants is a diverse and complex environment that is critical to the life cyc...
Additional contributors: John Sedbrook; Zachary Blankenheim; David Garvin (faculty mentor)Plant biom...
Bacteria release a wide range of volatile compounds that play important roles in intermicrobial and ...
Background Plant growth-promoting rhizobacteria are increasingly being seen as a way of complementi...
Plant growth-promoting rhizobacteria are increasingly considered as a complement of conventional inp...
Plant growth-promoting rhizobacteria are increasingly considered as a complement of conventional inp...
Impact of individual strain volatile compounds on Total Secondary Root Length (A), Total Adventitiou...
Rhizobacterial volatile organic compounds modulate biomass production and root architectur
The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. There is s...
The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. There is s...
Bacteria release a wide range of volatile compounds that play important roles in intermicrobial and ...
The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. There is s...
<div><p>The rhizosphere microbiome is regulated by plant genotype, root exudates and environment. Th...
Volatile organic compounds emitted by plants are known to intervene with various biotic environmenta...
Water stress is one of the major environmental factors limiting the crop productivity . Plant stress...
The rhizosphere of land plants is a diverse and complex environment that is critical to the life cyc...
Additional contributors: John Sedbrook; Zachary Blankenheim; David Garvin (faculty mentor)Plant biom...
Bacteria release a wide range of volatile compounds that play important roles in intermicrobial and ...