Abstract
Recent studies indicate that thiamethoxam (TMX), a neonicotinoid insecticide, can affect plant responses to environmental stressors, such as neighboring weeds. The molecular mechanisms behind both stable and environmentally specific responses to TMX likely involve genes related to defense and stress responses. We investigated the effect of a TMX seed treatment on global gene expression in maize coleoptiles both under normal conditions and under low ratio red to far-red (R:FR) light stress induced by the presence of neighboring plants. The neighboring plant treatment upregulated genes involved in biotic and abiotic stress responses and affected specific photosynthesis and cell-growth related genes. Low R:FR light may enhance maize resistance to herbivores and pathogens. TMX appears to compromise resistance. The TMX treatment stably repressed many genes that encode proteins involved in biotic stress responses, as well as cell-growth genes. Notably, TMX effects on many genes' expression were conditional on the environment. In response to low R:FR, plants treated with TMX engage genes in the JA pathway, as well as other stress-related response pathways. Neighboring weeds may condition TMX-treated plants to become more stress tolerant.
Highlights
Crop–weed competition is a major source of yield loss (Liu et al 2009)
Our results indicated that maize seedlings grown in close proximity to neighboring plants have enhanced expression of biotic defense genes that may provide an improved resistance to pathogens and herbivores
While most work on low R:FR light responses in maize have focused on evidence of avoidance, our results show that maize seedlings exposed to low R:FR light have altered expression of genes involved in photosynthesis relative to plants grown under normal light conditions
Summary
Plants can sense neighboring vegetation by the change in light quality and can subsequently alter their physiology and morphology (Ballaré et al 1987, 1997; Rajcan and Swanton 2001; Afifi and Swanton 2012). Neonicotinoid insecticides, which act as antagonists of insect nicotinic acetylcholine receptors (Maienfisch et al 2001) and impede synaptic transmission in the insect nervous system, have non-specific effects on a suite of plant processes independent of their insecticidal actions. These effects on plants can be both stable and environmentally specific
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