Franz, EelcoRotariu, OvidiuLopes, Bruno S.Macrae, MarionBono, James L.Laing, ChadGannon, VictorSöderlund, RobertVan Hoek, Angela H.A.M.Friesema, IngridFrench, Nigel P.George, TessyBiggs, Patrick J.Jaros, PatriciaRivas, MartaChinen, IsabelCampos, JosefinaJernberg, CeciliaGobius, KariMellor, Glen E.Chandry, P. ScottPerez-Reche, FranciscoForbes, Ken J.Strachan, Norval J.C.2019-10-292019-10-292019-08-01Franz, E, Rotariu, O, Lopes, B S, Macrae, M, Bono, J L, Laing, C, Gannon, V, Söderlund, R, Van Hoek, A H A M, Friesema, I, French, N P, George, T, Biggs, P J, Jaros, P, Rivas, M, Chinen, I, Campos, J, Jernberg, C, Gobius, K, Mellor, G E, Chandry, P S, Perez-Reche, F, Forbes, K J & Strachan, N J C 2019, 'Phylogeographic analysis reveals multiple international transmission events have driven the global emergence of Escherichia coli O157:H7', Clinical Infectious Diseases, vol. 69, no. 3, pp. 428-437. https://doi.org/10.1093/cid/ciy9191058-4838https://hdl.handle.net/2164/13183This work was supported by: Scotland by Food Standards Scotland [Grant Number FS102029] and University of Aberdeen; New Zealand, Institute of Environmental Science and Research; Canada, the Public Health Agency of Canada; United States, United States Department of Agriculture101247131engSDG 3 - Good Health and Well-beinginfectious diseasesSTECwhole genome sequencingphylogeographyE. coli O157whole-genome sequencingCATTLESPREADHISTORYQC PhysicsMicrobiology (medical)Infectious DiseasesQCJournal article10.1093/cid/ciy919http://www.scopus.com/inward/record.url?scp=85072632956&partnerID=8YFLogxK693