Results 131 to 140 of about 703 (164)

Structure of the subgenual organ in the green lacewing, Chrysoperla carnea

Tissue and Cell, 1994
REM and TEM studies of the subgenual organ in Chrysoperla carnea (Neuroptera: Chrysopidae) show that it is composed of three scolopidia, each with one sensory, one scolopale and one cap cell. The distal part of the dendrite shows a cilium with a '9 + 0' structure.
D, Devetak, M A, Pabst
openaire   +2 more sources

Effects of Mechanical Handling on Green Lacewing Larvae (Chrysoperla Rufilabris)

Applied Engineering in Agriculture, 1995
Lacewing larvae (Chrysoperla rufilabris), used for biological control of insect pests, are typically released by hand for treatment of small-scale ornamental and fruit crops. This study investigated the potential for mechanical release of larvae. Second instar larvae were mixed into vermiculite and rice hull carriers and subjected to vibrational and ...
null T. Morisawa, null D. K. Giles
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Green Lacewing (Neuroptera: Chrysopidae: Chrysoperla) Attraction to Yeast

2018
Green lacewings (Chrysopidae ; ~1200 species), especially Chrysopa and Chrysoperla species whose larvae are predators of aphids, are invaluable biological control agents. In the green lacewing genus, Chrysopa, adults are also predacious, and these are the only lacewings known to produce aggregation pheromones.
Aldrich, Jeffrey R., Vitanovic, Elda, Winterton, Shaun L., Zalom, Frank G.   +3 more
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Green lacewing phylogeny, based on three nuclear genes (Chrysopidae, Neuroptera)

Systematic Entomology, 2008
Abstract Systematic relationships among higher taxa within Chrysopidae, a large and agriculturally significant neuropteran family, are poorly understood. A molecular phylogenetic survey of Chrysopidae was performed with three nuclear genes, namely wingless (546 bp),
NAOTO HARUYAMA, ATSUSHI MOCHIZUKI, PETER DUELLI, HIDESHI NAKA, MASASHI NOMURA   +4 more
openaire   +1 more source

Avoidance behavior in green lacewings

Journal of Comparative Physiology ? A, 1979
Lee A. Miller, Jens Olesen
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Evolution of green lacewings (Neuroptera: Chrysopidae): an anchored phylogenomics approach

Systematic Entomology, 2019
Abstract A phylogeny of green lacewings (Neuroptera: Chrysopidae) using anchored hybrid enrichment data is presented. Using this phylogenomic approach, we analysed 137 kb of sequence data (with < 10% missing) for 82 species in 50 genera of Chrysopidae under Bayesian and maximum likelihood criteria. We recovered
Shaun L. Winterton, Jessica P. Gillung, Ivonne J. Garzón‐Orduña, Davide Badano, Laura C.V. Breitkreuz, Peter Duelli, Michael S. Engel, Xingyue Liu, Renato J.P. Machado, Mervyn Mansell, Atsushi Mochizuki, Norman D. Penny, Catherine A. Tauber, John D. Oswald   +13 more
openaire   +4 more sources

Physiological responses of green lacewings (Chrysopa, Neuroptera) to ultrasound

Journal of Insect Physiology, 1971
Abstract The tympanal organ of the green lacewing, Chrysopa carnea , functions as an ultrasonic receptor. The organ is located within a small swelling of the radial vein near the base of each forewing. Sensory responses occur to sound frequencies from 13 to 120 kHz, and to sound pulses as short as a millisecond delivered at rates of up to 150 pulses/
openaire   +1 more source

The green lacewings (Neuroptera: Chrysopidae) of Brazilian agro-ecosystems

2001
(Uploaded by Plazi from the Biodiversity Heritage Library) No abstract provided.
openaire   +1 more source

Green Chemistry in the Synthesis of Pharmaceuticals

Chemical Reviews, 2022
Supratik Kar, Hans Sanderson, Kunal Roy
exaly  

Molecular Imprinting: Green Perspectives and Strategies

Advanced Materials, 2021
Maryam Arabi, Jinhua Li, Jaebum Choo
exaly