Nitrogen (N) fixation in cereals by root-associated bacteria is a promising solution for reducing use of chemical N fertilizers in agriculture. However, plant and bacterial responses are unpredictable across environments. We hypothesized that cereal responses to N-fixing bacteria are dynamic, depending on N supply and time. To quantify the dynamics, a gnotobiotic, fabricated ecosystem (EcoFAB) was adapted to analyse N mass balance, to image shoot and root growth, and to measure gene expression of Brachypodium distachyon inoculated with the N-fixing bacterium Herbaspirillum seropedicae. Phenotyping throughput of EcoFAB-N was 25-30 plants h-1 with open software and imaging systems. Herbaspirillum seropedicae inoculation of B. distachyon shift...
Despite more than 40 years of research on free-living and endophytic bacteria associated with cereal...
Crops often show plasticity in their root morphology and physiology to environmental changes that ca...
Nitrogen is the most abundant and essential mineral for plants. It is in nucleic acids and proteins;...
Nitrogen (N) fixation in cereals by root-associated bacteria is a promising solution for reducing us...
In times of increasing global population and decreasing arable land per capita, the understanding of...
Herbaspirillum seropedicae, as an endophyte and prolific root colonizer of numerous cereal crops, oc...
Modern agriculture relies on the application of nitrogen fertilizer synthesized via the Haber-Bosch ...
We present studies where use of plant growth promoting bacteria resulted in improved plant performan...
Plant roots grow in a changing environment in every stage of soil exploration [1]. Studying the root...
The use of microorganisms for improving plant performance under limiting conditions can be traced th...
A main goal of biological nitrogen fixation research has been to expand the nitrogen-fixing ability ...
A non-invasive plant phenotyping platform, GrowScreen-PaGe, was used to resolve the dynamics of shoo...
International audienceRelationships between plants and nitrogen-related microbes may vary with plant...
Exploitative fast-growing plants have higher demands for nutrients compared to conservative slow-gro...
Catch crops (CC) reduce nitrate leaching, and may resolve a major concern in nitrogen (N) intensive ...
Despite more than 40 years of research on free-living and endophytic bacteria associated with cereal...
Crops often show plasticity in their root morphology and physiology to environmental changes that ca...
Nitrogen is the most abundant and essential mineral for plants. It is in nucleic acids and proteins;...
Nitrogen (N) fixation in cereals by root-associated bacteria is a promising solution for reducing us...
In times of increasing global population and decreasing arable land per capita, the understanding of...
Herbaspirillum seropedicae, as an endophyte and prolific root colonizer of numerous cereal crops, oc...
Modern agriculture relies on the application of nitrogen fertilizer synthesized via the Haber-Bosch ...
We present studies where use of plant growth promoting bacteria resulted in improved plant performan...
Plant roots grow in a changing environment in every stage of soil exploration [1]. Studying the root...
The use of microorganisms for improving plant performance under limiting conditions can be traced th...
A main goal of biological nitrogen fixation research has been to expand the nitrogen-fixing ability ...
A non-invasive plant phenotyping platform, GrowScreen-PaGe, was used to resolve the dynamics of shoo...
International audienceRelationships between plants and nitrogen-related microbes may vary with plant...
Exploitative fast-growing plants have higher demands for nutrients compared to conservative slow-gro...
Catch crops (CC) reduce nitrate leaching, and may resolve a major concern in nitrogen (N) intensive ...
Despite more than 40 years of research on free-living and endophytic bacteria associated with cereal...
Crops often show plasticity in their root morphology and physiology to environmental changes that ca...
Nitrogen is the most abundant and essential mineral for plants. It is in nucleic acids and proteins;...