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mSystems


Title:Extended Plant Metarhizobiome: Understanding Volatile Organic Compound Signaling in Plant-Microbe Metapopulation Networks
Author(s):Raza W; Wei Z; Jousset A; Shen Q; Friman VP;
Address:"Key Lab of Plant Immunity, Jiangsu Provincial Key Lab for Organic Solid Waste Utilization, National Engineering Research Center for Organic-based Fertilizers, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, Nanjing Agricultural University, Nanjing, People's Republic of China. Utrecht University, Institute for Environmental Biology, Ecology, and Biodiversity, Utrecht, The Netherlands. University of York, Department of Biology, York, United Kingdom"
Journal Title:mSystems
Year:2021
Volume:20210824
Issue:4
Page Number:e0084921 -
DOI: 10.1128/mSystems.00849-21
ISSN/ISBN:2379-5077 (Print) 2379-5077 (Electronic) 2379-5077 (Linking)
Abstract:"Plant rhizobiomes consist of microbes that are influenced by the physical, chemical, and biological properties of the plant root system. While plant-microbe interactions are generally thought to be local, accumulating evidence suggests that topologically disconnected bulk soil microbiomes could be linked with plants and their associated rhizospheric microbes through volatile organic compounds (VOCs). While several studies have focused on the effect of soil physicochemical properties for VOC movement, it is less clear how VOC signaling is affected by microbial communities themselves when VOCs travel across soils. To gain a better understanding of this, we propose that soil microbe-plant communities could be viewed as 'metarhizobiomes,' where VOC-mediated interactions extend the plant rhizobiome further out through interconnected microbial metapopulation networks. In this minireview, we mainly focus on soil microbial communities and first discuss how microbial interactions within a local population affect VOC signaling, leading to changes in the amount, type, and ecological roles of produced VOCs. We then consider how VOCs could connect spatially separated microbial populations into a larger metapopulation network and synthesize how (i) VOC effects cascade in soil matrix when moving away from the source of origin and (ii) how microbial metapopulation composition and diversity shape VOC-signaling between plants and microbes at the landscape level. Finally, we propose new avenues for experimentally testing VOC movement in plant-microbe metapopulation networks and suggest how VOCs could potentially be used for managing plant health in natural and agricultural soils"
Keywords:bulk soil microbiome long-distance communication microbe-plant crosstalk microbial metapopulation networks rhizosphere microbiome volatile organic compounds;
Notes:"PubMed-not-MEDLINERaza, Waseem Wei, Zhong Jousset, Alexandre Shen, Qirong Friman, Ville-Petri eng 42090060 41922053/National Nature Science Foundation of China/ RSG\R1\180213/The Royal Society/ 838710/EC | H2020 | H2020 Priority Excellent Science | H2020 Marie Sklodowska-Curie Actions (MSCA)/ 2021/08/25 mSystems. 2021 Aug 31; 6(4):e0084921. doi: 10.1128/mSystems.00849-21. Epub 2021 Aug 24"

 
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