Abiotic Stresses Shift Belowground <i>Populus</i> -Associated Bacteria Toward a Core Stress Microbiome
Collin M. Timm(Oak Ridge National Laboratory), Kelsey Carter(Michigan Technological University), Alyssa A. Carrell(Oak Ridge National Laboratory), Se‐Ran Jun(Oak Ridge National Laboratory), Sara Jawdy(Oak Ridge National Laboratory), Jessica M. Vélez(Oak Ridge National Laboratory), Lee E. Gunter(Oak Ridge National Laboratory), Zamin K. Yang(Oak Ridge National Laboratory), Intawat Nookaew(Oak Ridge National Laboratory), Nancy L. Engle(Oak Ridge National Laboratory), Tse-Yuan S. Lu(Oak Ridge National Laboratory), Christopher W. Schadt(Oak Ridge National Laboratory), Timothy J. Tschaplinski(Oak Ridge National Laboratory), Mitchel J. Doktycz(Oak Ridge National Laboratory), Gerald A. Tuskan(Oak Ridge National Laboratory), Dale A. Pelletier(Oak Ridge National Laboratory), David J. Weston(Oak Ridge National Laboratory)
Cited by 127Open Access
Abstract
The identification of a common "stress microbiome" indicates tightly controlled relationships between the plant host and bacterial associates and a conserved structure in bacterial communities associated with poplar trees under different growth conditions. The ability of the microbiome to buffer the plant from extreme environmental conditions coupled with the conserved stress microbiome observed in this study suggests an opportunity for future efforts aimed at predictably modulating the microbiome to optimize plant growth.
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