Marking and retention of harlequin bug, Murgantia histrionica (Hahn) (Hemiptera: Pentatomidae), on pheromone-baited and unbaited plants

• Published in: Journal of pest science Vol. 89; no. 1; pp. 21 - 29
• Main Authors: Walsh, Guillermo Cabrera, Dimeglio, Anthony S., Khrimian, Ashot, Weber, Donald C.
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.03.2016; Springer Nature B.V
• Subjects: adults; Agriculture; Attractants; Biomedical and Life Sciences; cole crops; control methods; Crops; Ecology; Emigration; Entomology; Fitness; Forestry; Hemiptera; Host location; Host plants; Insect control; Insecticides; Lepidoptera; Life Sciences; Marking systems; Murgantia histrionica; nymphs; Original Paper; Pentatomidae; Pests; Pheromone traps; Pheromones; Plant Pathology; Plant Sciences; Plant tissues; Planting density; Retention; Retention time; Survival; Trap crops; Migration rates; Mark-release-recapture; Trap crops; 10,11-epoxy-1-bisabolen-3-ol; Stink bug
• ISSN: 1612-4758; 1612-4766
• DOI: 10.1007/s10340-015-0663-1

Harlequin bug (Murgantia histrionica) is an important pest of cole crops in the USA. The adults and nymphs feed on aboveground plant tissues by sucking cell contents and can seriously damage the host. Current insect control measures on cole crops target mainly lepidopteran pests, and the insecticides generally used do not control harlequin bug, so alternative management practices need to be explored. Previous research has established the existence of a male-produced pheromone attractive to both sexes and nymphs of M. histrionica. In this work, two systems of marking bugs were tested to verify if the mark affected fitness traits such as survival and host location. In a second phase, marked individuals were placed on trap host plants baited with synthetic pheromone lures to test whether migration rates were related to M. histrionica density on the trap plants and the presence of the attractants. Neither marking system affected the survival or orientation of the subjects compared to unmarked individuals. The pheromone lures significantly increased the attractiveness of the trap plants, but did not increase the retention time of the plants compared to unbaited plants. Emigration from the trap plants showed a constant rate and seemed unrelated to bug density on the plants. However, a mean peak density of ca. 36 bugs/plant was calculated. Beyond this number, density tended to decrease. These successful marking methods and retention time models support development of M. histrionica management with trap crops, by providing tentative control thresholds and decision rules.