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- Drivers of bacterial and fungal root endophyte communities🔍
- Collin M. Timm🔍
- Root endophytic bacterial and fungal communities in a natural hot ...🔍
- Metabolic functions of Pseudomonas fluorescens strains from ...🔍
- Endophytic Bacterial Communities Associated with Roots and ...🔍
- Jennifer Shipp on X🔍
Relatively rare root endophytic bacteria drive plant resource ...
Relatively rare root endophytic bacteria drive plant resource ...
Our results indicate that interactions among endophytic bacteria may drive plant phenotype over the contribution of each strain individually.
Relatively rare root endophytic bacteria drive plant resource ...
Data from: Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in unpredictable ...
Relatively rare root endophytic bacteria drive plant resource ...
Plant endophytic bacterial strains can influence plant traits such as leaf area and root length. Yet, the influence of more complex bacterial ...
Data for: Relatively rare root endophytic bacteria drive plant ... - Dryad
In mixture, bacterial strain BurkholderiaBT03, constituted at least 98% of community relative abundance. Yet, plant resource allocation and tissue nutrient ...
Relatively rare root endophytic bacteria drive plant resource ...
By itself, each bacterial endophyte significantly but weakly altered plant phenotype relative to noninoculated plants. In a mixture, bacterial ...
Relatively rare root endophytic bacteria drive plant resource ...
Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in unpredictable ways · University of ...
Relatively rare root endophytic bacteria drive plant resource ...
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Relatively rare root endophytic bacteria drive plant resource ... - Ebsco
Title. Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in unpredictable ways. Authors ...
Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in unpredictable ways.
Relatively rare root endophytic bacteria drive plant resource ... - OUCI
PremisePlant endophytic bacterial strains can influence plant traits such as leaf area and root length. Yet, the influence of more complex bacterial ...
Relatively rare root endophytic bacteria drive plant resource ...
Dive into the research topics of 'Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in ...
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Data for: Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in unpredictable ways. Jeremiah ...
Drivers of bacterial and fungal root endophyte communities
Abstract. Bacterial and fungal root endophytes can impact the fitness of their host plants, but the relative importance of drivers for root endophyte ...
Collin M. Timm - Publications - The Academic Family Tree
Cultivating the Bacterial Microbiota of Roots ... Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient ...
Root endophytic bacterial and fungal communities in a natural hot ...
Desert plants may develop symbiotic relationships with root endophytic microbes to survive under the repeated wet and extremely dry conditions.
Metabolic functions of Pseudomonas fluorescens strains from ...
1 Excerpt. Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in unpredictable ways.
Endophytic Bacterial Communities Associated with Roots and ...
Several studies have demonstrated the relevance of endophytic bacteria on the growth and fitness of agriculturally-relevant plants.
Jennifer Shipp on X: "Microbes doing microbe things. Relatively rare ...
Microbes doing microbe things. Relatively rare root endophytic bacteria drive plant resource allocation patterns and tissue nutrient concentration in ...
Plant growth-promoting bacterial endophytes - ScienceDirect.com
Of course, bacteria residing in the rhizosphere might also have the potential to enter and colonize the plant roots. This microecosystem has been widely known ...
Bacterial endophytome sources, profile and dynamics—a ... - Frontiers
For example, variation in phenolic compounds drives interactions between bacteria and plants (Shaw et al., 2006). ... Root bacterial endophytes alter plant ...