Relevant bibliographies by topics / Campaniform sensillae

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Academic literature on the topic 'Campaniform sensillae'

Author: Grafiati
Published: 5 June 2025
Last updated: 15 July 2025

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Journal articles on the topic "Campaniform sensillae"

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Shields, Vonnie D. C. "Ultrastructure of the uniporous sensilla on the galea of larval Mamestra configurata (Walker) (Lepidoptera: Noctuidae)." Canadian Journal of Zoology 72, no. 11 (1994): 2016–31. http://dx.doi.org/10.1139/z94-273.

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The structure and innervation of sensilla on the galea of fifth-instar Bertha armyworms, Mamestra configurata, were examined using bright-field light, scanning electron, and transmission electron microscopy. Four sensillar types were identified. The galea bears two uniporous styloconic sensilla, one aporous spire-shaped basiconic sensillum, two aporous basiconic sensilla, and one campaniform sensillum. The uniporous styloconic sensillum consists of a small socketed peg inserted into a large cone or style. Each styloconic sensillum is innervated by five bipolar neurons and associated with three
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2

Alichi, Mahmood. "The cutting edge of the lock-and-key hypothesis in weevils: a case study of Sitona fairmairei (Coleoptera, Curculionidae)." Journal of Insect Biodiversity and Systematics 8, no. 2 (2022): 175–82. https://doi.org/10.52547/jibs.8.2.175.

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According to a perspective, male and female copulatory organs have not more extreme morphologies. However, a skewed bias in males, -as well as the scanty taxonomic data on female genitalia, may explain why most evolutionary biologists failed to find acceptable evidence for the reproductive co-evolution in insects. A recent finding shows that the mechanical footing has a cooperative essence in the weevil genus <em>Sitona</em>. In this viewpoint, successful mating is achieved by the dynamic correspondence between the male endophallus and female genital lumen. The present work addresses some miss
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3

Liang, Ai-Ping. "Scanning Electron Microscopy of Antennal Sense Organs in Prosapia bicincta (Say) (Hemiptera: Cercopidae)." Journal of Entomological Science 36, no. 4 (2001): 335–41. http://dx.doi.org/10.18474/0749-8004-36.4.335.

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The external morphology of the sensilla on the antennae of the adult spittlebug, Prosapia bicincta (Say) (Hemiptera: Cercopidae), is described for the first time, using scanning electron microscope observations. The sensilla include one peg-like basiconic sensillum (about 65.05 to 65.90 μ in length and 13.33 to 14.08 μ in width at base), 18 to 23 porous coeloconic sensilla (mostly 7.38 to 8.94 μ in diam), one campaniform sensillum and a cluster of trichoid sensilla (about 45 to 55 (μ long). The first two types of sensilla are located on the expanded flagellar base, while the latter two sensill
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HARTENSTEIN, VOLKER. "Development of Drosophila larval sensory organs: spatiotemporal pattern of sensory neurones, peripheral axonal pathways and sensilla differentiation." Development 102, no. 4 (1988): 869–86. http://dx.doi.org/10.1242/dev.102.4.869.

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The sensilla of Drosophila larval thoracic and abdominal segments appear in a constant temporal sequence during stage 13/14 (9·5–11·5 h) of embryonic development. Those sensilla innervated by more than one dendrite (basiconical sensilla, chordotonal organs, some of the trichoid sensilla and campaniform sensilla) appear earlier than sensilla innervated by a single dendrite (majority of trichoid sensilla and campaniform sensilla). Furthermore, a dorsoventrally directed gradient underlies the sequence in which sensilla of a given type appear. Sensory axons are emitted in the same sequence. Thus,
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5

Shields, Vonnie D. C. "Ultrastructure of the aporous sensilla on the galea of larval Mamestra configurata (Walker) (Lepidoptera: Noctuidae)." Canadian Journal of Zoology 72, no. 11 (1994): 2032–54. http://dx.doi.org/10.1139/z94-274.

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The galea of fifth-instar Bertha armyworms, Mamestra configurata, has three types of aporous sensilla: one spire-shaped basiconic peg, two short basiconic pegs, and one campaniform sensillum. The spire-shaped peg is set in an inflexible socket, innervated by three bipolar neurons, and enveloped by three sheath cells. One microtubule-laden dendrite completely fills the distal portion of the dendritic sheath and ends within the peg. It is joined by a lamellate and a scolopidium-like dendrite that end near and below the base of the peg, respectively. The ciliary sinus is large and the membrane of
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6

DICKINSON, MICHAEL H. "Directional Sensitivity and Mechanical Coupling Dynamics of Campaniform Sensilla During Chordwise Deformations of the Fly Wing." Journal of Experimental Biology 169, no. 1 (1992): 221–33. http://dx.doi.org/10.1242/jeb.169.1.221.

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The complex morphology of an insect campaniform sensillum is responsible for transforming strains of the integument into a displacement of the campaniform dome and subsequently a deformation of the dendritic membrane. In this paper, the first step in this coupling process was investigated in identified campaniform sensilla on the wing of the blowfly by stimulating the sensilla with chord-wise deflections of the wing blade. Campaniform sensilla neurones were sensitive to both dorsal and ventral deflections of the wing, and thus exhibited no strong directional sensitivity to the chord-wise compo
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7

Kapoor, N. N. "Distribution and innervation of sensilla on the mouthparts of the carnivorous stonefly nymph, Paragnetina media (Walker) (Plecoptera: Perlidae)." Canadian Journal of Zoology 67, no. 4 (1989): 831–38. http://dx.doi.org/10.1139/z89-123.

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The external morphology and distribution of various types of sensilla on the mouthparts of the nymphs of Paragnetina media are described, based on light and scanning electron microscopy. Hairs of various types are arranged in distinctive patterns on each mouthpart. Scolopophorous sensilla, each consisting of a pore canal and two bipolar neurons, are present in the mandibular teeth. The elliptical type of campaniform sensilla, multiporous columnar pegs, and nonporous sensilla are concentrated on the segments of the maxillary and labial palps. The tips of the maxillary and labial palps bear a cl
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8

Faucheux, Michel J., Tamás Németh, and Robin Kundrata. "Comparative Antennal Morphology of Agriotes (Coleoptera: Elateridae), with Special Reference to the Typology and Possible Functions of Sensilla." Insects 11, no. 2 (2020): 137. http://dx.doi.org/10.3390/insects11020137.

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Species of the click-beetle genus Agriotes Eschscholtz are economically important crop pests distributed mainly in the Northern Hemisphere. They can inflict considerable damage on various field crops. Therefore, the detection, monitoring, and control of Agriotes include the adult trapping using species-specific sex pheromones, which is a critical component of pest research. To obtain a better understanding of the detailed antennal morphology as background information for subsequent chemical ecology research, we conducted a scanning electron microscopy study of the antennal sensilla of both sex
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9

BROŻEK, JOLANTA, and DOMINIK CHŁOND. "Morphology, arrangement and classification of sensilla on the apical segment of labium in Peiratinae (Hemiptera: Heteroptera: Reduviidae)." Zootaxa 2476, no. 1 (2010): 39. http://dx.doi.org/10.11646/zootaxa.2476.1.5.

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The present paper describes sensory structures on the apical segment of the labium in representatives of the subfamily Peiratinae (Heteroptera: Reduviidae), using the scanning electron microscope. The study is based on dry material representing 19 species and 16 genera. Within Peiratinae thirteen morphologically distinct types of sensilla were identified. Among them were four new types of sensilla (porous placodea sensillum [PPLS], multilobate sensillum [MS], domeelongated sensillum [UDES], and pit peg sensillum type 2 [NPPS2]) were found. Mechanosensilla are evenly distributed on the surface
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10

Porcelli, Francesco. "Ultrastruttura e funzione dei "diamond-shaped sensilla" nei maschi di Unaspis euonymi (Comstock) (Coccoidea- Diaspididae)." Entomologica, Bari 27 (December 31, 1992): 19–28. https://doi.org/10.5281/zenodo.3597947.

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FUNCTIONAL MORPHOLOGY OF &quot;DIAMOND-SHAPED SENSillA&quot; ON MALES OF <em>UNASPIS EUONYMI </em>(COMSTOCK) (COCCOIDEA: DIASPIDIDAE) On the basis of external anatomy and ultrastructure, it is shown that &quot;diamond-shaped sensilla&quot; <em>(sensu </em>Ghauri, 1962) are a series of fìve campaniform sensilla. Behavioural observations led to hypothesize that laterally located sensilla are stimulated during walking, when the legs move. Furthermore, the ventrally located sensillum monitors cuticular strains due to the contraction of the <em>elevator trochanteris </em>muscle.
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Book chapters on the topic "Campaniform sensillae"

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Szczecinski, Nicholas S., Sasha N. Zill, Chris J. Dallmann, and Roger D. Quinn. "Modeling the Dynamic Sensory Discharges of Insect Campaniform Sensilla." In Biomimetic and Biohybrid Systems. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-64313-3_33.

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Heußlein, Ralph, Heribert Gras, and Werner Gnatzy. "Functional Coupling of Cercal Filiform Hairs and Campaniform Sensilla in Crickets." In Functional Surfaces in Biology. Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-1-4020-6697-9_12.

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Conference papers on the topic "Campaniform sensillae"

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Menon, Carlo, Julian F. V. Vincent, Sally Clift, and Steve Hood. "Novel strain sensor for space application inspired by campaniform sensilla." In 57th International Astronautical Congress. American Institute of Aeronautics and Astronautics, 2006. http://dx.doi.org/10.2514/6.iac-06-c2.5.09.

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Mohd. Yusof, Abdul Aziz, Ardiyansyah Syahrom, M. Rafiq Abdul Kadir, and Dedy H. B. Wicaksono. "High-gain pre-transduction strain amplification inspired from the dome shape structure of insect campaniform sensillum." In 2013 IEEE International Conference on Robotics, Biomimetics, & Intelligent Computational Systems (ROBIONETICS). IEEE, 2013. http://dx.doi.org/10.1109/robionetics.2013.6743609.

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