Siebers, Meike Rohr, Thomas Ventura, Marina Schütz, Vadim Thies, Stephan Kovacic, Filip Jaeger, Karl-Erich Berg, Martin Dörmann, Peter Schulz, Margot Alterations in bacterial and fungal community structures during RS-EX treatment revealed by alterations in phosphatidylethanolamine (PE) molecular species composition. <p>Changes in PE molecular species in A. control and B. RS-EX treated soil samples were measured by Q-TOF mass spectrometry. Markers for bacteria (Bact) and fungi are indicated. Means ± SD are shown (n = 3). Asterisks indicate significant differences to control (t-test; *, p < 0.05; **, p < 0.005). Fatty acids of molecular species are indicated in <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0200160#pone.0200160.s012" target="_blank">S2 Table</a>. Arrows indicate increased or decreased amounts of bacterial or fungal molecular species of PE after RS-EX application.</p> cultivable microorganisms;soil microbiota community structure;biomass production;community structures;Cultivable fungi;plant survival;enzyme activity assays;high-throughput DNA sequencing;plant-microbial interactions;rapeseed-derived glucosinolates;Arabidopsis plants;ITC-treated soil;Brassica plants;ITC application;Brassicaceae plants;rapeseed-derived glucosinolates Land plants;show growth;plant growth;soil community;health risk;soil bacteria;calcium phosphate;ITC-tolerant plant microorganisms;harbor plant growth;biofumigation causes losses;community composition;Rapeseed-derived ITCs;rapeseed glucosinolates 2018-07-03
    https://plos.figshare.com/articles/figure/Alterations_in_bacterial_and_fungal_community_structures_during_RS-EX_treatment_revealed_by_alterations_in_phosphatidylethanolamine_PE_molecular_species_composition_/6738812
10.1371/journal.pone.0200160.g003