2018
DOI: 10.1101/354167
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Microbial interkingdom interactions in roots promote Arabidopsis survival

Abstract: 17Roots of healthy plants are inhabited by soil-derived bacteria, fungi, and oomycetes that have 18 evolved independently in distinct kingdoms of life. How these microorganisms interact and to 19 what extent those interactions affect plant health are poorly understood. We examined root-20 associated microbial communities from three Arabidopsis thaliana populations and detected 21 mostly negative correlations between bacteria and filamentous microbial eukaryotes. We 22 established microbial culture collections … Show more

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Cited by 97 publications
(146 citation statements)
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“…Strains from these genera have previously been found in rhizosphere environments [56][57][58][59]. The family Comamonadaceae contains bacteria that are metabolically versatile and can use a broad range of carbon substrates, enhance the cycling of sulfur in soil and suppress fungal pathogens [57,60]. Genera within this family include Variovorax and Delftia, which contain species known to grow on methanol [58,61].…”
Section: Phylogenetic Analysis Of the Exudate-utilising Community Of mentioning
confidence: 99%
“…Strains from these genera have previously been found in rhizosphere environments [56][57][58][59]. The family Comamonadaceae contains bacteria that are metabolically versatile and can use a broad range of carbon substrates, enhance the cycling of sulfur in soil and suppress fungal pathogens [57,60]. Genera within this family include Variovorax and Delftia, which contain species known to grow on methanol [58,61].…”
Section: Phylogenetic Analysis Of the Exudate-utilising Community Of mentioning
confidence: 99%
“…They interact with each other via diverse mechanisms ranging from trophic interactions to biofilm formation and even the interchange of genetic information, to name just a few [1,2]. These interactions are receiving increasing attention as we understand more about how the roles of fungi and bacteria as decomposers, nitrogen fixers, pathogens, and mutualistic partners of plants and animals are modified by fungus-bacterium interactions [3][4][5][6][7][8].…”
Section: Microbial Ecology Of Floral Nectarmentioning
confidence: 99%
“…Complex processes are driven by trophic interactions among soil organisms within food webs [1,15]. For example, large soil invertebrates comminute large amounts of animal and plant litter to generate resources for fungi and bacteria [1]; positive interactions, induced by niche partitioning or facilitation, could promote microbial community functioning [28,41]; microbial interkingdom associations could enhance ecosystem functioning [15] and promote plant health in the model plant Arabidopsis [42]. We also observed multiple potential associations among soil microbial biodiversity that could positively in uence ecosystem multifunctionality.…”
Section: Discussionmentioning
confidence: 99%