Abstract
Balance between constitutive and induced responses provides plants flexibility to cope with biotic stresses. This study tested the hypothesis that invasion of grapevine wood by esca-associated fungi induces the production of defensive compounds as part of locally- and systemically-induced responses. In a vineyard, different symptomatic expressions of “Esca complex” in Vitis vinifera L. ‘Malvasia’ were evaluated in annual inspections. Then, levels of phenolics and fatty acids were determined in asymptomatic leaves of brown wood streaking (BWS) and grapevine leaf stripe (GLSD) vines, and in symptomatic leaves of GLSD and apoplectic vines; the results were compared with levels in healthy vines. In asymptomatic leaves of BWS and some GLSD vines, levels of phenolics decreased, independent of the total phenolic group. Such responses were usually associated with an increase in levels of linoleic, γ-linolenic and arachidonic acids, well-known signal transduction mediators. In symptomatic leaves, levels of phenolics increased, which is consistent with a locally-induced response; the onset of symptoms coincided with the highest increases e.g., 35% for quercetin-3-O-glucuronide. Thus, the long latency period between trunk invasion by fungi and visible foliar damage and the year-to-year fluctuation in symptomatic expressions observed with “Esca complex” might be partially attributed to a better utilization of constitutive defenses.
Highlights
In their natural environment, plants are at risks of infections by pests and pathogens.Plant resistance to such infections is attributed to multiple defenses that comprise constitutive/preformed and inducible chemical barriers.Inducible chemical barriers involve the synthesis of pathogenesis-related proteins (PR) and the accumulation of phytoalexins [1]
Great variability was observed in the accumulation of phenolic compounds and fatty acids in grapevine as a response to infection by esca-associated fungi, which indicated that dynamic and transient metabolic changes occur when symptoms spread from the trunk to the leaves
The most accepted interpretation is that toxic metabolites secreted by esca-associated fungi or resulting from reaction products of the infected wood are translocated from the xylem to the leaves via the transpiration/sap stream, which incites foliar symptom development [18]
Summary
Plants are at risks of infections by pests and pathogens.Plant resistance to such infections is attributed to multiple defenses that comprise constitutive/preformed and inducible chemical barriers.Inducible chemical barriers involve the synthesis of pathogenesis-related proteins (PR) and the accumulation of phytoalexins [1]. Plants are at risks of infections by pests and pathogens Plant resistance to such infections is attributed to multiple defenses that comprise constitutive/preformed and inducible chemical barriers. The disease is generally associated with the development of diverse wood pathogens among which the ascomycetes Phaeomoniella chlamydospora and Phaeoacremonium minimun and the basidiomycete Fomitiporia mediterranea are most commonly cited [6,7,8,9].
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