Abstract
Green leaf volatiles (GLVs) have long been associated with plant defense responses against insect herbivory. Although some of their biological activities appear to directly affect the attacking herbivore, one of the major functions of GLVs seems to be the priming of these defense responses. This priming is generally considered to impose low costs on the plant should no direct attack happen. Here, we demonstrate that priming of maize seedlings with GLVs is costly for the plants as it results in significantly reduced growth. We further demonstrate that priming very selectively affects growth responses after insect elicitor treatment and mechanical wounding depending on the age and/or the developmental stage of the treated plant. The differential growth response of maize seedlings to treatment with GLVs and subsequent herbivory-related damage sheds new light on the biological activity of these important plant volatile compounds and indicates consequences that go beyond defense.
Highlights
Plants are constantly threatened by a plethora of pests and pathogens
Mechanical damage (MW) of the plant is an essential part of this interaction, insect herbivores produce chemicals in their saliva [2,3,4,5,6,7], which are sensed by the plant and contribute significantly to the regulation of the plant’s defensive reactions
Since Green leaf volatiles (GLVs) provide enhanced protection against insect herbivory, it was hypothesized that the activation of defense responses by these compounds requires a significant investment of resources, both at earlier time points, when mainly direct defenses are activated and at later time points during primed responses, which for example results in a significant increase in herbivore-induced plant volatiles (HIPV) release in maize seedlings
Summary
Plants are constantly threatened by a plethora of pests and pathogens. For example, insect herbivores have managed to identify suitable host plants for oviposition and feeding through adaptation during coevolutionary processes [1]. This was the first report on priming against insect herbivory signaled by GLVs and it was demonstrated that this effect is linked to defense responses as the responses to MW alone were not affected. Since GLVs provide enhanced protection against insect herbivory, it was hypothesized that the activation of defense responses by these compounds requires a significant investment of resources, both at earlier time points, when mainly direct defenses are activated and at later time points during primed responses, which for example results in a significant increase in HIPV release in maize seedlings Both of these investments should cause a reduction of growth and/or yield. (ii) primed responses to IE and MW result in differential growth responses, which depend on the developmental state of the plants
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