de Vries, Franciska TGriffiths, Rob IBailey, MarkCraig, HayleyGirlanda, MariangelaGweon, Hyun SoonHallin, SaraKaisermann, AuroreKeith, Aidan MKretzschmar, MarinaLemanceau, PhilippeLumini, EricaMason, Kelly EOliver, AnnaOstle, NickProsser, James IThion, CecileThomson, BruceBardgett, Richard D2018-08-092018-08-092018-08-02de Vries, F T, Griffiths, R I, Bailey, M, Craig, H, Girlanda, M, Gweon, H S, Hallin, S, Kaisermann, A, Keith, A M, Kretzschmar, M, Lemanceau, P, Lumini, E, Mason, K E, Oliver, A, Ostle, N, Prosser, J I, Thion, C, Thomson, B & Bardgett, R D 2018, 'Soil bacterial networks are less stable under drought than fungal networks', Nature Communications, vol. 9, 3033. https://doi.org/10.1038/s41467-018-05516-72041-1723http://hdl.handle.net/2164/10877This study was funded as part of the European project EcoFINDERS (FP7-264465). F.T.d.V. is supported by a BBSRC David Phillips Fellowship (BB/L02456X/1). We thank Caley Brown, Melanie Hartley, Neil Mullinger, Helen Quirk, Deborah Ashworth and Victor van Velzen for help in the lab and field.123381902engSDG 13 - Climate ActionJournal Articleclimate-change ecologyecological networksecosystem ecologymicrobial ecologyQH301 BiologyBiotechnology and Biological Sciences Research Council (BBSRC)BB/L02456X/1QH301Journal article10.1038/s41467-018-05516-79