Abstract
Methyl salicylate (MeSA) is a volatile shown to act as an inducer of plant defense against pathogens and certain herbivores, particularly aphids. It has been shown to have potential for aphid pest management, but knowledge on its mode of action is lacking, particularly induced plant-mediated effects. This study investigated the effects of exposing plants to MeSA on the host searching, host acceptance and feeding behavior of the bird cherry-oat aphid Rhopalosiphum padi. Barley plants were exposed to volatile MeSA for 24 h, after which biological effects were tested immediately after the exposure (Day 0), and then 1, 3 and 5 days after the end of the exposure. Aphid settling on MeSA-exposed plants was significantly reduced on days 0, 1 and 3, but not on day 5. In olfactometer tests, aphids preferred the odor of unexposed plants on days 1 and 3, but not on day 0 or 5. Analysis of volatiles from exposed and unexposed plants showed higher levels of MeSA from exposed plants, most likely absorbed and re-released from plant surfaces, but also specific changes in other plant volatiles on days 0, 1 and 3. High doses of MeSA did not affect aphid orientation in an olfactometer, but lower doses were repellent. Analysis of aphid feeding by Electronic penetration graph (EPG) showed that MeSA exposure resulted in resistance factors in barley plants, including surface factors and induced systemic factors in other tissues including the phloem. The results support the potential of MeSA as a potential tool for management of aphid pests.
Highlights
Volatile semiochemicals are increasingly being considered as promising components of integrated management strategies against insect pests (Smart et al, 2014)
Methyl salicylate (MeSA) has been shown to act as a mobile signal for systemic acquired resistance (SAR) by being converted to salicylic acid (Park et al, 2007) and is known to promote the expression of defense related genes in response to herbivores and pathogens (Li et al, 2002)
This study shows that exposing plants to volatile MeSA can impact the step-wise process of R. padi host plant selection by affecting aphid behavior at more than one step
Summary
Volatile semiochemicals are increasingly being considered as promising components of integrated management strategies against insect pests (Smart et al, 2014). Semiochemicals may include compounds that directly repel pests, attract natural enemies, or they may be “elicitors” that induce defensive pathways that confer resistance in the host plant (Maffei et al, 2012). The salicylic acid biochemical pathway in plants, mainly activated in response to the attack of sap feeders, is generally considered to provide defense against biotrophic pathogens, but it appears to function against certain herbivorous arthropods, those with a piercing/sucking feeding mode (Aerts et al, 2021). MeSA has been shown to act as a mobile signal for systemic acquired resistance (SAR) by being converted to salicylic acid (Park et al, 2007) and is known to promote the expression of defense related genes in response to herbivores and pathogens (Li et al, 2002)
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