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Systemic Acquired Resistance-Mediated Control of Pine Wilt Disease by Foliar Application With Methyl Salicylate

Hee Won Jeon, Ae Ran Park, Minjeong Sung, Namgyu Kim, Mohamed Mannaa, Gil‐Soo Han, Junheon Kim, Yeonjong Koo, Young‐Su Seo, Jin‐Cheol Kim

2022Frontiers in Plant Science21 citationsDOIOpen Access PDF

Abstract

Pine wilt disease (PWD), caused by the pinewood nematode, is the most destructive disease in pine forest ecosystems worldwide. Extensive research has been done on PWD, but effective disease management is yet to be devised. Generally, plants can resist pathogen attack via a combination of constitutive and inducible defenses. Systemic acquired resistance (SAR) is an inducible defense that occurs by the localized infection of pathogens or treatment with elicitors. To manage PWD by SAR in pine trees, we tested previously known 12 SAR elicitors. Among them, methyl salicylate (MeSA) was found to induce resistance against PWD in Pinus densiflora seedlings. In addition, the foliar applications of the dispersible concentrate-type formulation of MeSA (MeSA 20 DC) and the emulsifiable concentrate-type formulation of MeSA (MeSA 20 EC) resulted in significantly reduced PWD in pine seedlings. In the field test using 10-year-old P. densiflora trees, MeSA 20 DC showed a 60% decrease in the development of PWD. Also, MeSA 20 EC gave the best results when applied at 0.1 mM concentration 2 and 1 weeks before pinewood nematode (PWN) inoculation in pine seedlings. qRT-PCR analysis confirmed that MeSA induced the expression of defense-related genes, indicating that MeSA can inhibit and delay the migration and reproduction of PWN in pine seedlings by modulating gene expression. These results suggest that foliar application of MeSA could reduce PWD incidence by inducing resistance and provide an economically feasible alternative to trunk-injection agents for PWD management.

Topics & Concepts

Pinus densifloraWilt diseaseMethyl salicylateBiologyInoculationPlant disease resistancePine woodPathogenBursaphelenchus xylophilusHorticultureBotanyNematodeGeneMicrobiologyEcologyBiochemistryNematode management and characterization studiesPlant Pathogens and Fungal DiseasesPlant-Microbe Interactions and Immunity