Abstract
The brown planthopper (BPH), Nilaparvata lugens (Stål), is a migratory and destructive sucking insect pest of rice. Silicon (Si) amendment to plants can confer enhanced resistance to herbivores and is emerging as a novel approach for pest management. In the present study, we tested the effects of Si addition at 0.16 (low) and 0.32 (high) g Si/kg soil on sucking behaviors and population growth in BPH. Si amendment increased Si content in rice stems and extended non-probing event and phloem puncture followed by sustained phloem ingestion over that in the no-Si-addition control. High Si addition rate prolonged the stylet pathway and the time needed to reach the first phloem puncture, shortened durations of phloem puncture and phloem ingestion, and decreased the proportion of individuals that produced sustained phloem ingestion. BPH female feeding on and preference for plants with the high Si addition rate were also reduced. As a result, Si application significantly decreased BPH population growth rates while increased population doubling time. These results indicate that Si amendment, especially at the high rate, confers enhanced rice plant resistance to BPH through impairment of BPH feeding. Our results highlight the potential of Si amendment as an alternative for BPH management.
Highlights
Rice (Oryza sativa L.), accounting for almost one-fifth of the total world cropland under cereal, is attacked by about 800 species of insect pests in both field and storage[1]
We observed that silicon application to rice plants reduced population growth rates and extended population doubling time in brown planthopper (BPH), and conferred resistance
We show that Si addition impaired phloem sap feeding by BPH
Summary
Rice (Oryza sativa L.), accounting for almost one-fifth of the total world cropland under cereal, is attacked by about 800 species of insect pests in both field and storage[1]. The BPH is a monophagous herbivore, and is a typical vascular feeder It sucks the phloem sap from leaf sheath of rice plants using its stylet, and causes direct damage to rice plants. Si is generally not considered an essential element for plant growth, but due to its important role in plant nutrition, under stressful conditions, it is recognized as a “beneficial substance” or “quasi-essential”[7]. Enhanced resistance to both sucking and chewing insect pests following artificial Si application has been observed in a wide variety of plant species[8]. The influence of Si amendment on BPH sucking behaviors and population growth has to be further determined
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