Worldwide Genetic Structure Elucidates the Eurasian Origin and Invasion Pathways of Dothistroma septosporum, Causal Agent of Dothistroma Needle Blight (CROSBI ID 290444)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Mullett, Martin S. ; Drenkhan, Rein ; Adamson, Kalev ; Boroń, Piotr ; Lenart-Boroń, Anna ; Barnes, Irene ; Tomšovský, Michal ; Jánošíková, Zuzana ; Adamčíková, Katarína ; Ondrušková, Emília ; Queloz, Valentin ; Piškur, Barbara ; Musolin, Dmitry L. ; Davydenko, Kateryna ; Georgieva, Margarita ; Schmitz, Sophie ; Kačergius, Audrius ; Ghelardini, Luisa ; Kranjec Orlović, Jelena ; Müller, Michael ; Oskay, Funda ; Hauptman, Tine ; Halász, Ágnes ; Markovskaja, Svetlana ; Solheim, Halvor ; Vuorinen, Martti ; Heinzelmann, Renate ; Hamelin, Richard C. ; Konečný, Adam
engleski
Worldwide Genetic Structure Elucidates the Eurasian Origin and Invasion Pathways of Dothistroma septosporum, Causal Agent of Dothistroma Needle Blight
Dothistroma septosporum, the primary causal agent of Dothistroma needle blight, is one of the most significant foliar pathogens of pine worldwide. Its wide host and environmental ranges have led to its global success as a pathogen and severe economic damage to pine forests in many regions. This comprehensive global population study elucidated the historical migration pathways of the pathogen to reveal the Eurasian origin of the fungus. When over 3800 isolates were examined, three major population clusters were revealed: North America, Western Europe, and Eastern Eu-rope, with distinct subclusters in the highly diverse Eastern European cluster. Modeling of historical scenarios using approximate Bayesian computation revealed the North American cluster was de-rived from an ancestral population in Eurasia. The Northeastern European subcluster was shown to be ancestral to all other European clusters and subclusters. The Turkish subcluster diverged first, followed by the Central European subcluster, then the Western European cluster, which has subse-quently spread to much of the Southern Hemisphere. All clusters and subclusters contained both mating-types of the fungus, indicating the potential for sexual reproduction, although asexual re-production remained the primary mode of reproduction. The study strongly suggests the native range of D. septosporum to be in Eastern Europe (i.e., the Baltic and Western Russia) and Western Asia.
Mycosphaerella pini ; biogeography ; ABC ; DNB ; global spread ; introduction pathway ; invasive pathogen ; global spread
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