Full TGIF Record # 298885
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Web URL(s):https://turf.rutgers.edu/research/abstracts/symposium2018.pdf#page=16
    Last checked: 06/19/2018
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    Notes: Item is within a single large file; Abstract only
Publication Type:
i
Report
Author(s):Groben, Glen; Luo, Jing; Walsh, Emily; Qu, Henry; Meyer, William; Bonos, Stacy; Clarke, Bruce; Zhang, Ning
Author Affiliation:Department of Plant Biology, Rutgers University
Title:The microbiome associated with tall fescue under drought stress
Section:Plenary presentations
Other records with the "Plenary presentations" Section
Meeting Info.:New Brunswick, New Jersey: January 12, 2018
Source:Proceedings of the Twenty-Seventh Annual Rutgers Turfgrass Symposium. 2018, p. 15.
Publishing Information:New Brunswick, New Jersey: The Center for Turfgrass Science, Rutgers, The State University of New Jersey
# of Pages:1
Keywords:TIC Keywords: Drought stress; Evaluations; Festuca arundinacea; Microbiomes; Phenotypes
Abstract/Contents:"The effects microbiomes have on physiological traits in turfgrasses are poorly understood. Drought tolerance is an economically important trait, which can be influenced by certain microbes. One example is the mycorrhizae association, which has been shown to improve drought tolerance of many plant species. In this study, we evaluated the microbiome associated with tall fescue genotypes grown in a rainout shelter after prolonged periods of drought stress. Twelve plants were selected for analysis, comprised of six sets of siblings, one exhibiting a drought tolerant phenotype and the other a susceptible phenotype. The microbiome associated with the shoot, root, and rhizosphere soil was evaluated for each tall fescue half-sib pair. Microbiome analysis was preformed utilizing an Illumina NGS metabarcoding approach that sequenced the 16S and ITS barcoding region to determine the composition of the bacterial and fungal communities, respectively. Comparative analysis of the microbiomes associated with the two phenotypes will be used to determine which microbes are associated with improved drought tolerance and drought susceptibility."
Language:English
References:0
Note:This item is an abstract only!
ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete):
Groben, G., J. Luo, E. Walsh, H. Qu, W. Meyer, S. Bonos, et al. 2018. The microbiome associated with tall fescue under drought stress. Proc. Rutgers Turfgrass Symp. p. 15.
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Web URL(s):
https://turf.rutgers.edu/research/abstracts/symposium2018.pdf#page=16
    Last checked: 06/19/2018
    Requires: PDF Reader
    Notes: Item is within a single large file; Abstract only
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MSU catalog number: b3696858
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