Biodiversity Literature Repository

Submit to community
Liberated Data
Published November 15, 2023 | Version v1
Journal article Open

Sensory Structures On The Antenniform Legs Of Whip Spider Phrynichus Phipsoni (Arachnida, Amblypygi) From The Indian State Of Goa: Scanning Electron Microscopic Elucidation

Creators

  • 1. borkar.manoj@rediffmail.com,
  • 2. vinitadsa@gmail.com,
  • 3. pratikshasail2210@gmail.com,
  • 4. maria.lizanne@gmail.com

Description

Borkar, M. R., D'Sa, V. Q., Sail, P., Lizanne, M. A. C. (2023): Sensory Structures On The Antenniform Legs Of Whip Spider Phrynichus Phipsoni (Arachnida, Amblypygi) From The Indian State Of Goa: Scanning Electron Microscopic Elucidation. Zoodiversity 57 (5): 451-460, DOI: 10.15407/zoo2023.05.451, URL: http://dx.doi.org/10.15407/zoo2023.05.451

Files

source.pdf

Files (1.6 MB)

Name Size Download all
md5:0b5a6d17087852dc1ebd3b20d5d49ac8
1.6 MB Preview Download

Linked records

Additional details

Identifiers

LSID
urn:lsid:plazi.org:pub:0B5A6D170878FFDCFFBD3B20FFD4FFC8

Related works

Has part
Figure: 10.5281/zenodo.10134559 (DOI)
Figure: 10.5281/zenodo.10134561 (DOI)
Figure: 10.5281/zenodo.10134563 (DOI)

References

  • Altner, H. & Loftus, R. 1985. Ultrastructure and function of insect thermos- and hygroreceptors. Annual Review of entomology, 30 (1), 273-295.
  • Anton, S. & Tichy, H. 1994. Hygro-and thermoreceptors in tip-pore sensilla of the tarsal organ of the spider Cupiennius salei: innervation and central projection. Cell and Tissue Research, 278, 399-407.
  • Barth, F. G. 2002. Spider senses-technical perfection and biology. Zoology, 105 (4), 271-285.
  • Barth, F. G. 2012. Spider strain detection. In: Barth, F. G., Humphrey, J. A. C., Srinivasan, M. V., eds. Frontiers in sensing: from Biology to engineering. Springer, Wien-New York, 251-273.
  • Beck,L., Foelix, R., Godeke, E.& Kaiser, R. 1977.Morphologie, larvalentwicklung und haarsensillen des tastbeinpaares der geisselspinne Heterophrynus longicornis Butler (Arach., Amblypygi).Zoomorphologie, 88, 259-276.
  • Beck, L. & Gorke, K. 1974. Daily periodicity, territorial behavior and prey capture of the whipped spider Admetus pumilio CL Koch outdoors. Journal of Animal Psychology, 35 (2), 173-186.
  • Bingman, V. P., Graving, J. M., Hebets, E. A. & Wiegmann, D. D. 2017. Importance of the antenniform legs, but not vision, for homing by the neotropical whip spider Paraphrynus laevifrons. Journal of Experimental Biology, 220 (5), 885-890.
  • Blickhan, R., Weihmann, T. & Barth, F. G. 2021. Measuring strain in the exoskeleton of spiders - virtues and caveats. Journal of Comparative Physiology A, 207 (2), 191-204.
  • Borkar, M. R., Komarpant, N. & Bastawade, D. B. 2006. First report of Whip Spider Phrynicus phipsoni Pocock from the human habitations and protected areas of Goa state, India; with notes on its habits and habitat. Records of the Zoological Survey of India, 106 (2), 33-38.
  • Ehn, R. & Tichy, H. 1994. Hygro-and thermoreceptive tarsal organ in the spider Cupiennius salei. Journal of Comparative Physiology A, 174, 345-350.
  • Flanigan, K. A., Wiegmann, D. D., Casto, P., Coppola, V. J., Flesher, N. R., Hebets, E. A. & Bingman, V. P. 2021. Visual control of refuge recognition in the whip spider Phrynus marginemaculatus. Journal of Comparative Physiology A, 207 (6), 729-737.
  • Foelix, R. F., Chu-Wang, I. W. & Beck, L. 1975. Fine structure of tarsal sensory organs in the whip spider Admetus pumilio (Amblypygi, Arachnida). Tissue and Cell, 7 (2), 331-346.
  • Foelix, R. F. 1975. Occurrence of synapses in peripheral sensory nerves of arachnids. Nature, 254 (5496), 146-148.
  • Foelix, R. & Hebets, E. 2001. Sensory biology of whip spiders (Arachnida, Amblypygi).Eileen Hebets Publications, 32.
  • Gainett, G., Michalik, P., Muller, C. H., Giribet, G., Talarico, G. & Willemart, R. H. 2017. Putative thermohygroreceptive tarsal sensilla on the sensory legs of an armored harvestman (Arachnida, Opiliones). Zoologischer Anzeiger, 270, 81-97.
  • Gebhardt, I. 1983. Comparative morphological and histological studies on the eyes of arachnids with special reference to the Pseudoscorpiones, Uropygi and Amblypygi. PhD Thesis, University of Freiburg, Freiburg im Breisgau.
  • Hebets, E. A., Aceves-Aparicio, A., Aguilar-Arguello, S., Bingman, V. P., Escalante, I., Gering, E. J. & Stafstrom, J. A. 2014 a. Multimodal sensory reliance in the nocturnal homing of the amblypygid Phrynus pseudoparvulus (Class Arachnida, Order Amblypygi)? Behavioural processes, 108, 123-130.
  • Hebets, E. A. & Chapman, R. F. 2000. Electrophysiological studies of olfaction in the whip spider Phrynus parvulus (Arachnida, Amblypygi). Journal of Insect Physiology, 46 (11), 1441-1448.
  • Hebets, E. A., Gering, E. J., Bingman, V. P. &Wiegmann, D. D. 2014 b. Nocturnal homing in the tropical amblypygid Phrynus pseudoparvulus (Class Arachnida, Order Amblypygi). Animal Cognition, 17, 1013-1018.
  • Hossl,B., Bohm, H. J., Rammerstorfer,F.G. & Barth, F.G. 2007.Finite element modeling of arachnid slit sensilla-I. The mechanical significance of different slit arrays. Journal of Comparative Physiology A, 193, 445-459.
  • Igelmund, P. 1987. Morphology, sense organs, and regeneration of the forelegs (whips) of the whip spider Heterophrynus elaphus (Arachnida, Amblypygi). Journal of Morphology, 193 (1), 75-89.
  • Igelmund, P. & Wendler, G. 1991. The giant fiber system in the forelegs (whips) of the whip spider Heterophrynus elaphus Pocock (Arachnida: Amblypygi). Journal of Comparative Physiology A, 168, 63-73.
  • Lehmann, T. & Melzer, R. R. 2018. Also looking like Limulus? - retinula axons and visual neuropils of Amblypygi (whip spiders). Frontiers in Zoology, 15, 1-14.
  • Miranda de, G. S., Giupponi, A. P., Prendini, L. & Scharff, N. 2018. Weygoldtia, a new genus of Charinidae Quintero, 1986 (Arachnida, Amblypygi) with a reappraisal of the genera in the family. Zoologischer Anzeiger, 273, 23-32.
  • Moore, M. E. 2019. Vertical Navigation in the Whip Spider and Insights into its Sensory Control. PhD Thesis, Bowling Green State University.
  • Peretti, A. V. 2002. Courtship and sperm transfer in the whip spider Phrynus gervaisii (Amblypygi, Phrynidae): a complement to Weygoldt's 1977 paper. The Journal of Arachnology, 30 (3), 588-600.
  • Santer, R. D. & Hebets, E. A. 2009. Prey capture by the whip spider Phrynus marginemaculatus CL Koch. The Journal of Arachnology, 37 (1), 109-112.
  • Santer, R. D. & Hebets, E. A. 2011. The sensory and behavioural biology of whip spiders (Arachnida, Amblypygi). In: Advances in insect physiology, Academic Press, 41, 1-64.
  • Segovia, J. M., Gainett, G. & Willemart, R. H. 2020. Predatory behavior and sensory morphology of the whip spider Charinus asturius (Arachnida: Amblypygi). Journal of Ethology, 38, 273-280.
  • Seiter, M., Lemell, P., Gredler, R. & Wolff, J. O. 2019. Strike kinematics in the whip spider Charon sp. (Amblypygi: Charontidae). The Journal of Arachnology, 47 (2), 260-265.
  • Seyfarth, E. A. 1985. Spider proprioception: receptors, reflexes, and control of locomotion. Neurobiology of arachnids, 230-248.
  • Sinakevitch, I., Long, S. M. & Gronenberg, W. 2021. The central nervous system of whip spiders (Amblypygi): large mushroom bodies receive olfactory and visual input. Journal of Comparative Neurology, 529 (7), 1642-1658.
  • Spence, A. J. & Hebets, E. A. 2006. Anatomy and physiology of giant neurons in the antenniform leg of the amblypygid Phrynus marginemaculatus. The Journal of Arachnology, 34 (3), 566-577.
  • Talarico, G., Palacios-Vargas, J. G., Silva, M. F. & Alberti, G. 2005. First ultrastructural observations on the tarsal pore organ of Pseudocellus pearsei and P. boneti (Arachnida, Ricinulei). The Journal of Arachnology, 33 (2), 604-612.
  • Weygoldt, P. 1998. Revision of the species of Phrynichus Karsch, 1879 and Euphrynichus Weygoldt, 1995 (Chelicerata, Amblypygi). Zoologica, Stuttgart, 147, 1-65.
  • Weygoldt, P. 1999. Revision of the genus Damon CL Koch, 1850 (Chelicerata: Amblypygi: Phrynichidae)- Sperm transfer, spermatophore morphology, and female genitalia of three species of whip spiders.Zoologica, Stuttgart, 150, 1-45.
  • Weygoldt, P. 2000. Whip Spiders (Chelicerata: Amblypygi): Their Biology, Morphology and Systematics. Apollo Books, 1-164.
  • Whip Spiders (Arachnida: Amblypygi). 2023. American Arachnology Society. https://www.americanarachnology.org/about-arachnids/arachnid-orders/amblypygi/
  • Wiegmann, D. D., Hebets, E. A., Gronenberg, W., Graving, J. M. & Bingman, V. P. 2016. Amblypygids: model organisms for the study of arthropod navigation mechanisms in complex environments? Frontiers in Behavioral Neuroscience, 10, 47.
  • Wiegmann, D. D., Moore, C. H., Flesher, N. R., Harper, E. D., Keto, K. R., Hebets, E. A. & Bingman, V. P. 2019. Nocturnal navigation by whip spiders: antenniform legs mediate near-distance olfactory localization of a shelter. Animal Behaviour, 149, 45-54.
  • Wolff, J. O., Nentwig, W. & Gorb, S. N. 2013. The great silk alternative: multiple co-evolution of web loss and sticky hairs in spiders. PLoS One, 8 (5), e62682.