Endophytic Colonization of Onions Induces Resistance Against Viruliferous Thrips and Virus Replication

In agricultural ecosystems, insect pests, pathogens, weather patterns, and reduced soil fertility pose major challenges to crop productivity and are responsible for significant yield losses worldwide. (IYSV) vectored by Lindeman, is a major hindrance to onion production in eastern Africa. Control me...

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Veröffentlicht in:Frontiers in plant science 2018-12, Vol.9, p.1785-1785
Hauptverfasser: Muvea, Alexander Mutua, Subramanian, Sevgan, Maniania, Nguya Kalemba, Poehling, Hans-Michael, Ekesi, Sunday, Meyhöfer, Rainer
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Sprache:eng
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Zusammenfassung:In agricultural ecosystems, insect pests, pathogens, weather patterns, and reduced soil fertility pose major challenges to crop productivity and are responsible for significant yield losses worldwide. (IYSV) vectored by Lindeman, is a major hindrance to onion production in eastern Africa. Control measures often rely on insecticides with deleterious effects. Endophytes are one key alternative as they can play important roles in mediating induced systemic resistance. Hence, we examined the potential effect of endophytic fungus (F3ST1) on feeding and replication of IYSV on endophyte-colonized (E+) and endophyte-free (E-) onion plants. For more precise assessment, replication was also tested using leaf disk bioassays and individual thrips. The number of feeding punctures was significantly lower in E+ as compared to E- plants. Disease level was significantly lower in E+ as compared to E- plants for four weeks post-exposure to thrips. IYSV replication was reduced by 2.5-fold in endophytic treatment on both whole plant and leaf disk assays. showed 2 times higher feeding activities on endophyte-free onion leaf disks as compared to the endophyte-inoculated leaf disks. Our results suggest potential utility of the endophytes to reduce feeding damage and virus infection on onion plants. Further studies should be conducted to elucidate the secondary metabolites involved in such endophyte-thrips-virus mediated interaction and determine whether the interactions extend for this and other onion varieties and viruses under field conditions.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2018.01785