Results 31 to 40 of about 728 (163)
A delay differential equation model of mealybugs and green lacewings [PDF]
Advances in Difference Equations, 2019 zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Kittipol Jankaew +2 more
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Typifying ecosystems by using green lacewing assemblages
Agronomy for Sustainable Development, 2005 Green lacewing collection data from eleven various biotopes were used to typify different ecological landscapes. To make up the values recorded on single samples, we operated by the bootstrap method. A classifying process cluster scatterplot was then established to assess the proximity of the different habitats.
Thierry, Dominique +4 more
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Genomic regions underlying the species‐specific mating songs of green lacewings
Insect Molecular Biology, 2022 Abstract Rapid species radiations provide insight into the process of speciation and diversification. The radiation of Chrysoperla carnea‐ group lacewings seems to be driven, at least in part, by their species–specific pre‐mating vibrational duets.
Taylor, Katherine L. +3 more
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The Impact of Several Plant Extracts and Essential Oils on Pistachio Psylla (Agonoscena pistaciae) and Its Natural Enemy, Chrysoperla carnea [PDF]
Journal of Nuts, 2018 The common pistachio psylla, Agonoscena pistaciae Burckhardt and Lauterer (Hem.: Aphalaridae), is one of the most important pests of pistachio orchards in Iran.
Najmeh Azimi Zadeh, Kamal Ahmadi
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Green lacewings (of Florida) Neuroptera: Chrysopidae
EDIS, 2012 The Chrysopidae are one of the largest and economically most important families of the Neuroptera. There are about 1,300 currently recognized species included in about 87 genera and three subfamilies (Brooks and Bernard 1990) in the world. In Florida, there are 22 species in 9 genera, all placed in the subfamily Chrysopinae (Penny et al. 1997).
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Biomolecules, 2017 Egg stalk silks of the common green lacewing Chrysoperla carnea likely comprise at least three different silk proteins. Based on the natural spinning process, it was hypothesized that these proteins self-assemble without shear stress, as adult lacewings ...
Martin Neuenfeldt, Thomas Scheibel
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Seasonal adaptations of green lacewings (Neuroptera: Chrysopidae) [PDF]
European Journal of Entomology, 2005 Seasonal adaptations of green lacewings (Neuroptera: Chrysopidae) and their role in the control of aphid populations are discussed. The chrysopids of temperate zones face seasonal changes and must escape cyclic adversity. One way is via the number of broods per year.
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Efficacy of different biopesticides against Green lacewing on okra [PDF]
International Journal of Chemical Studies, 2020 The untreated control recorded maximum larval population. Among the biopesticides LAMIT 0.6% and eucalyptus oil 0.2%, recorded maximum population. These were followed by karanj oil 0.5%, biomix 0.3%, beauveria bassiana 0.4% neem oil 0.2%, NSKE 5%, verticilium lecanii 0.4%, metarhizium+ beauveria bassiana 0.4% and dashparni ark 0.6%.
B.B Gaikwad, B.B Bhosle, B.V Bhede
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Chemical egg defense in a green lacewing (Ceraeochrysa smithi) [PDF]
Proceedings of the National Academy of Sciences, 1996 The green lacewing Ceraeochrysa smithi (Neuroptera, Chrysopidae), like other members of its family, lays its eggs on stalks, but it is unusual in that it coats these stalks with droplets of an oily fluid. The liquid consists of a mixture of fatty acids, an ester, and a series of straight-chain aldehydes.
T, Eisner +5 more
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