Abstract
Plants have developed sophisticated mechanisms to survive in dynamic environments. Plants can communicate via volatile organic compounds (VOCs) to warn neighboring plants of threats. In most cases, VOCs act as positive regulators of plant defense. However, the communication and role of volatiles in response to drought stress are poorly understood. Here, we showed that tea plants release numerous VOCs. Among them, methyl salicylate (MeSA), benzyl alcohol, and phenethyl alcohol markedly increased under drought stress. Interestingly, further experiments revealed that drought-induced MeSA lowered the abscisic acid (ABA) content in neighboring plants by reducing 9-cis-epoxycarotenoid dioxygenase (NCED) gene expression, resulting in inhibition of stomatal closure and ultimately decreasing early drought tolerance in neighboring plants. Exogenous application of ABA reduced the wilting of tea plants caused by MeSA exposure. Exposure of Nicotiana benthamiana to MeSA also led to severe wilting, indicating that the ability of drought-induced MeSA to reduce early drought tolerance in neighboring plants may be conserved in other plant species. Taken together, these results provide evidence that drought-induced volatiles can reduce early drought tolerance in neighboring plants and lay a novel theoretical foundation for optimizing plant density and spacing.
Highlights
Plants require light, water, and soil nutrients to grow.Unlike animals, plants cannot hunt or escape danger, and they need pollinators for reproduction
The wilting degree of T1, T2, and T3 receivers that had communicated with drought-stressed emitters was more severe than that of the CK (Fig. 1B), suggesting that the volatiles released from the droughtstressed plants acted as regulators of plant defense
Our results suggested that airborne methyl salicylate (MeSA) could reduce early drought tolerance by decreasing the abscisic acid (ABA) content in neighboring plants, indicating crosstalk occurs between MeSA and ABA under drought stress
Summary
Plants cannot hunt or escape danger, and they need pollinators for reproduction. Many studies have shown that plants can perceive and respond to environmental signals and alter their physiology and morphology [1]. When plants grow under high densities, shade-intolerant plants adapt to low light by reducing their branch numbers[2]. Plants communicate with other organisms to disperse seeds. Plants attract predatory and parasitic insects to protect themselves from herbivorous pests and microbes or to obtain
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