Jian Wen scite author profile

The agricultural use of silica (SiO2) nanoparticles (NPs) has the potential to control insect pests while the safety and tritrophic effects on plants and beneficial natural enemies remains unknown. Here, we evaluate the effects of silica NPs on insect pests with different feeding niches, natural enemies, and a plant. Silica NPs were applied at different concentrations (75–425 mg/L) on field-cultivated faba bean and soybean for two growing seasons. The faba bean pests, the cowpea aphid Aphis craccivora and the American serpentine leafminer Liriomyza trifolii, and the soybean pest, the cotton leafworm Spodoptera littoralis, were monitored along with their associated predators. Additional laboratory experiments were performed to test the effects of silica NPs on the growth of faba bean seedlings and to determine whether the rove beetle Paederus fuscipes is attracted to cotton leafworm-infested soybean treated with silica NPs. In the field experiments, silica NPs reduced the populations of all three insect pests and their associated predators, including rove beetles, as the concentration of silica NPs increased. In soybean fields, however, the total number of predators initially increased after applying the lowest concentration. An olfactometer-based choice test found that rove beetles were more likely to move towards an herbivore-infested plant treated with silica NPs than to a water-treated control, suggesting that silica NPs enhance the attraction of natural enemies via herbivore-induced plant volatiles. In the laboratory, while silica NPs inhibited the development of faba bean roots at 400 mg/L, they did not affect germination percentage, germination time, shoot length, or vigor index compared to the control.

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Application of predator-associated cues to control small brown planthoppers: non-consumptive effects of predators suppress the pest population

Wen

Ueno

2021

BioControl

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Risk Odors Deriving from Predator Abdominal Gland Secretions Mediate Non-Consumptive Effects on Prey

Wen

Ueno

2021

J Chem Ecol

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Prey can detect the presence of predators by predator-released cues and then flexibly alter their phenotypical traits to mitigate the risk, thus non-consumptive effects emerge. Non-consumptive effects have been widely studied in many ecosystems, however, the mechanisms underlying these effects are poorly understood, leaving questions as to the nature of the risk cues and how prey detect the predator. Here, we used a Y-tube olfactometer to examine whether small brown planthoppers, Laodelphax striatellus (Fallén), could detect the presence of rove beetles (Paederus fuscipes Curtis) via odor from rove beetle abdominal gland secretion. We further identified the chemicals of abdominal gland secretion by gas chromatography-mass spectrometry. Chemicals identified were exposed to a planthopper to test their effects on planthopper behavior. Female or male planthoppers could distinguish the predation risk odors of rove beetle or rove beetle abdominal gland secretion from odor without predation risks. Through gas chromatography-mass spectrometry, sixteen of the most abundant chemicals were found in female and male abdominal gland secretion. Five of them (n-undecane, n-pentadecane, n-hexadecane, n-eicosane, and n-heneicosane) individually or collectively reduced the activity level of planthoppers. These findings enhance our understanding of the role of abdominal gland secretion in mediating non-consumptive predator effects, with significant implications for pest management, and the evolution of chemical signals.

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Predator cue-induced plasticity of morphology and behavior in planthoppers facilitate the survival from predation

Wen

Ueno

2021

Sci Rep

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Predators can induce phenotypic plasticity in prey through selection driven by predation risk. However, defense plasticity is rarely reported in insects, let alone trans-generational plasticity, meaning the mechanisms underlying plasticity, how it impacts ecosystem evolution and how it might be exploited in pest control are poorly understood. Here we examine the morphological plasticity of small brown planthoppers (SBPHs), Laodelphax striatellus, elicited by caged predators, Paederus fuscipes in the parent or F1 generation and reveal the risk cues mediating these effects. We also uncover the survival outcomes in SBPHs with predator-induced defensive morphological traits by examining their survival probability and behavioral plasticity. Results showed that caged predators or predator odor cue gave rise to a higher proportion of long-winged, female SBPHs in the parent and F1 generations, but the proportion of males and their wing length were unaffected. The visual cue from predators elicited weaker effects. Surprisingly, we discovered these long-winged forms suffered a lower predation rate when attacked by P. fuscipes, owing to an enhanced agility level. Our results suggest the within- and trans-generational plasticity of induced defenses may cause profound effects on SBPH population dynamics and prey-predator interaction. Understanding this interaction and its underlying mechanisms illuminates important aspects of ecosystem evolution and helps predict pest dispersal or migration, which in turn may be exploited for pest control.

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Field spray abdominal gland secretions of rove beetles: Effects on the pest abundance and arthropod community

Wen

Gong

Cao

2022

J Applied Entomology

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Alternative environmentally friendly methods for pest control are in high demand because of the environmental impacts of pesticides. Notably, predator-released kairomone is a natural compound released by natural enemies, which mediates nonconsumptive effects between natural enemies and prey. However, this novel pest control agent is underutilized relative to pesticides and natural enemies. Additionally, the effects of spraying predator kairomone on the number and diversity of arthropods in fields and whether this method is environmental-friendly are poorly understood. In the present study, a predator kairomone, rove beetle (Paederus fuscipes Curtis) abdominal gland secretion (AGS), was sprayed in rice fields to investigate whether AGS can suppress pest populations or will affect the fields' arthropod communities. After AGS spraying, the abundance of arthropods decreased throughout the first 12-d period, including arthropod pests such as hemipterans (small brown planthopper, Laodelphax striatellus (Fallén), brown planthopper, Nilaparvata lugens (Stål), white-backed planthopper, Sogatella furcifera (Horváth), and leafhoppers), and lepidopterans (rice leaf folder, Cnaphalocrocis medinalis Guenée). The abundance of arthropod predators was not affected, except for predatory spiders, which decreased, and rove beetles (P. fuscipes), which increased. In the terms of arthropod diversity, neither pests nor their natural enemies were changed by AGS application. This work highlights that predator kairomone can temporarily suppress pest populations in fields but has no adverse effects on arthropod diversity; thus, this approach is environmentally friendly and can be used in real-world applications. Broadly, present studies suggest that the application of predator kairomone may have synergistic or cumulative effects on pest suppression.

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Jian Wen

Silica nanoparticles as pesticide against insects of different feeding types and their non-target attraction of predators

Application of predator-associated cues to control small brown planthoppers: non-consumptive effects of predators suppress the pest population

Risk Odors Deriving from Predator Abdominal Gland Secretions Mediate Non-Consumptive Effects on Prey

Predator cue-induced plasticity of morphology and behavior in planthoppers facilitate the survival from predation

Field spray abdominal gland secretions of rove beetles: Effects on the pest abundance and arthropod community

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