Identification and functional verification of active volatiles recognition by the olfactory co-receptor Orco in Chrysopa pallens (Rambur) (Neuroptera: Chrysopidae). [PDF]
J Insect SciLi S +6 more
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Eocene and modern entomofauna differ-a Cretaceous-like larva in Rovno amber. [PDF]
Insect SciHaug JT, Linhart S, Baranov V, Haug C.
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Native Japanese Polygonaceae Species as Potential Native Insectary Plants in Conserving Indigenous Natural Enemies. [PDF]
InsectsWari D, Abe J, Kitamura T.
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Ecological risk assessment for Cry1Da_7, Cry1B.3 and Vip3Cb1 proteins expressed in MON 89151 cotton: an insect-protected cotton with targeted activity against Lepidoptera. [PDF]
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Predation of Coffee Berry Borer by a Green Lacewing
Neotropical Entomology, 2021We report here for the first time, the predation of coffee berry borer (CBB) Hypothenemus hampei (Ferrari) by a green lacewing species, Chrysoperla externa (Hagen). We showed in laboratory the predator ability to access CBB galleries, remove pest immature stages, and prey on them. We also observed predation by third instar larvae on CBB adults.
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Biology and Feeding Potential of Green Lacewing
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Prothoracic Gland Semiochemicals of Green Lacewings
Journal of Chemical Ecology, 2009Adult chrysopids have paired prothoracic glands (PG) that are thought to produce defensive secretions (allomones). We analyzed PG extracts of the following green lacewings from North and South America, Australia, and China: Ceraeochrysa cubana (Brazil); Chrysopa (= Co.) oculata, Co. nigricornis, Co. incompleta, Co.
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Male-Produced Pheromone of the Green Lacewing, Chrysopa nigricornis
Journal of Chemical Ecology, 2006Gas chromatographic-electroantennographic detection (GC-EAD) analysis showed that male antennae of the green lacewing, Chrysopa nigricornis Burmeister, the most common lacewing species in the U.S. Pacific Northwest, consistently responded to two compounds in thoracic extracts of conspecific males: 1-tridecene and (1R,2S,5R,8R)-iridodial.
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Antireflection in Green Lacewing Wings with Random Height Surface Protrusions
Langmuir, 2020Wings of insects exhibit many functions apart from flying. In particular, their antireflection function is important for insects to avoid detection by their enemies. This function can be applied to antireflection biomimetic films in engineering fields. For such applications, confirming the antireflection mechanisms of insect wings is important. Herein,
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