Azalea plant bug (Rhinocapsus vanduzeei Uhler) fifth instars and a commercially obtained green lacewing (Chrysoperla rufilabris Burmeister) first and second instars exhibited a type II functional response when caged with varying densities of fourth or fifth instar azalea lace bug, Stephanitis pyrioides (Scott), prey. Attack coefficients for combined fourth and fifth instar prey were statistically similar for R. vanduzeei and C. rufilabris (0.052 and 0.057, respectively). The handling time was significantly greater for R. vanduzeei (3.96 h) than C. rufilabris (2.41 h). Search efficiency generally declined for both predators as initial azalea lace bug density increased. C. rufilabris killed significantly more fourth and fifth instar prey than R. vanduzeei (8.0 and 6.0, respectively) in 24 h. Results indicate that C. rufilabris is a more suitable candidate for augmentative, not inoculative, release for azalea lace bug control than R. vanduzeei. However, R. vanduzeei can effect reductions in azalea lace bug populations in the landscape as a component of the guild of lace bug’s natural enemies and should be considered in conservation efforts.
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1 December 2002
Functional Response of the Azalea Plant Bug (Heteroptera: Miridae) and a Green Lacewing Chrysoperla rufilabris (Neuroptera: Chrysopidae), Two Predators of the Azalea Lace Bug (Heteroptera: Tingidae)
Colin D. Stewart,
S. Kristine Braman,
Andrew F. Pendley
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augmentative release
Chrysoperla rufilabris
functional response
Rhinocapsus vanduzeei
Stephanitis pyrioides
urban landscape