Synthetic bacterial community derived from a desert rhizosphere confers salt stress resilience to tomato in the presence of a soil microbiome
Graduate School Experimental Plant Sciences · Research International (United States) · +4 more institutions
Abstract
The root bacterial microbiome is important for the general health of the plant. Additionally, it can enhance tolerance to abiotic stresses, exemplified by plant species found in extreme ecological niches like deserts. These complex microbe-plant interactions can be simplified by constructing synthetic bacterial communities or SynComs from the root microbiome. Furthermore, SynComs can be applied as biocontrol agents to protect crops against abiotic stresses such as high salinity. However, there is little knowledge on the design of a SynCom that offers a consistent protection against salt stress for plants growing in a natural and, therefore, non-sterile soil which is more realistic to an agricultural setting.…
Citation impact
- FWCI
- 50.61
- Percentile
- 100%
- References
- 88
Authors
13- LSLucas Schmitz
Graduate School Experimental Plant Sciences, Research International (United States)
- ZYZhichun Yan
Graduate School Experimental Plant Sciences, Research International (United States)
- MSMartinus Schneijderberg
Graduate School Experimental Plant Sciences, Research International (United States)
- MDMartijn de Roij
Graduate School Experimental Plant Sciences, Research International (United States)
- RPRick Pijnenburg
Graduate School Experimental Plant Sciences, Research International (United States)
Topics & keywords
- Biology
- Rhizosphere
- Abiotic component
- Microbiome
- Abiotic stress
- Botany
- Ecological niche
- Salinity