Advances in research of induced resistance to insects in cotton |
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Authors: | Xiaonan Ti and Qunchi Zhang |
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Affiliation: | (1) Laboratory of Chemical Biology, College of Chemical Engineering, Xinjiang Agricultural University, Urumqi, 830052, China |
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Abstract: | Any change in a plant that occurs following herbivory or environmental factors is an induced response. These changes include phytochemical induction, increases in physical defenses, emission of volatiles that attract predators and parasitoids of herbivores, and reduction in plant nutritional quality for herbivores, which is termed induced resistance. Induced resistance has been demonstrated ubiquitously in plants. It is one of our goals to review what is known about the induced resistance to herbivorous insects in cotton, including three resistance secondary metabolites (terpenoid, tannin, and flavonoids) that are contained at any significant levels of resistance to herbivorous insects in cotton cultivates. In many cases, the quantities or quality of secondary metabolites in plant are changed after attacked by insects. This review focuses on induced plant resistance as quantitative or qualitative enhancement of defense mechanism against insect pests, especially on the abiotic-elicitors-induced resistance in cotton plants. The abiotic-elicitor of cupric chloride, an exogenous inorganic compound, may induce the secondary metabolites accumulation and is referred to as a copperinducible elicitor (CIE). Finally, we discuss how copperinducible elicitor may be used in the Integrated Pest Management (IPM) system for cotton resistance control. |
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Keywords: | induced resistance secondary metabolites abiotic elicitor herbivorous insect cotton cultivates |
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