Article ID Journal Published Year Pages File Type
4503951 Biological Control 2014 8 Pages PDF
Abstract

•Retention rates of augmented P. maculiventris were increased in optimal weather.•Optimal weather + aggregation pheromone further reduced P. maculiventris emigration.•Semiochemical lures elicited point-source attraction of predators.•Augmented and wild P. maculiventris contributed to pest control services.•Parasitoids (Diptera and Hymenoptera) were attracted to both pheromone and HIPVs.

Augmentation biocontrol is a commercially viable pest management tactic in enclosed glasshouse environments, but is far less effective in open-field agriculture where newly released enemies rapidly disperse from release sites. We tested the potential for behavior-modifying semiochemicals to increase the retention of mass released predatory stink bugs, Podisus maculiventris Say (Hemiptera: Pentatomidae), for enhanced consumption of hornworm caterpillars, Manduca sexta L. (Lepidoptera: Sphingidae). To do so, we used controlled-release dispensers to emit the herbivore-induced plant volatile, methyl salicylate (MeSA), or P. maculiventris aggregation pheromone from tomato field plots. Overall, we recaptured ca. 17% of released individuals after 36 h. This rate, however, was significantly affected by weather (12% vs. 22% recapture in rainy vs. dry weeks, respectively) and semiochemical deployment, but only under optimal weather conditions (19% vs. 26% recapture in control vs. pheromone plots, respectively, during dry weeks). Further, we detected behavioral responses of wild P. maculiventris to semiochemical treatment with 94% of all captured adults (=84 of 89 total) found in pheromone plots. Only 24 of 567 (4%) captured stink bugs tested positive for immunomarking, suggesting that hornworm predation occurred but at a low frequency. Importantly, we documented that sentinel caterpillar prey were depleted by predators at a higher rate in stink bug augmented plots on tomato plants occurring near (<3 m from) the MeSA and pheromone lures. These data empirically demonstrate that both semiochemicals are capable of increasing pest consumption via attraction of P. maculiventris. Future work should focus on mechanisms of lure attraction and the long-term consequences of predator development in fields with elevated semiochemical emissions.

Graphical abstractP. maculiventris movement by augmentation manipulation treatment (AUG – blue; AUG + PHER – rd; AUG + PHER – green).Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Life Sciences Agricultural and Biological Sciences Agronomy and Crop Science
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