ODONATA MORPHOLOGY References

A Web Page by Roy J. Beckemeyer

Last updated: 3 November 2002 (include. Odonatologica through 30(4) and Pantala through 5(2))

1. Alexander, R.D., & W.L. Borwn, Jr., 1963, Mating behavior and the origin of insect wings, Occas. Pap. Mus. Zool. Univ. Mich., No. 628, pp. 1-19
2. Asahina, S., 1954, 47. The abdomen, pp.112-115 + plates 41-44 from "A morphological study of a relic dragonfly Epiophlebia superstes Selys (Odonata, Anisozygoptera), The Japan Society for the Promotion of Science, Tokyo
3. Butler, H., 1904, The labium of the Odonata, Trans. Am. Ent. Soc., 3:111-134, plates 2-7
4. Chao, H.-F., 1953, The external morphology of the dragonfly Onychogomphus ardens Needham, Smithsonian Misc. Coll., 123(6):1-56
5. Clark, H.W., 1940, The adult musculature of the anisopterous dragonfly thorax (Odonata, Anisoptera), J. Morphology, 67:523-565
6. Corbet, P.S., 1953, A terminology for the labium of larval Odonata, The Entomologist, 86:191-196
7. D'Andrea, M., & S. Cafri, 1988, Spines on the wing veins in Odonata. I. Zygoptera, Odonatologica, 17:313-335
8. D'Andrea, M., & S. Cafri, 1989, Spines on the wing veins in Odonata. II. Anisozygoptera and Anisoptera, Odonatologica, 18:147-178
9. D'Andrea, M., & S. Cafri, 1993, Spines on the wing veins in Odonata. 3. The wing edge, Adv. Odonatol., 6:21-43
10. Comstock, J.H., 1918, The wings of insects, Comstock Publ. Co., Ithaca, NY
11. Gorb, S.N, 1989, Functional morphology of the arrester system in dragonflies, Vestn. zool., No. 3:62-67 [in Russian]
12. Gorb, S.N., 1990, The microsculpture of the head fixation system in dragonflies in a scannning electron microscope, Zool. zh., 69(2):148-154 [in Russian]
13. Gorb, S.N., 1990, The external morphology of the head fixation system in the dragonflies of the superfamily Calopterygoidea (Odonata: Zygoptera), Zool. zh., 69(11):37-45 [in Russian]
14. Gorb, S., 1993, The skeleton-muscle organization of the head-fixation system in odonates and its evolutionary implications: a comparative study, Petalura, 1:1-13 + figures 1-10
15. Gorb, S.N., A. Kesel, & J. Berger, 2000, Microsculpture of the wing surface in Odonata: evidence for cuticular wax covering, Arthropod Structure & Development, 29:129-135
16. Grande, M., 1947, Gli scleriti ascellari degli Odonati,, loro morfologia e miologia comparate, Estratto del Bollettino dell'Istituto di Entomologia della Universita di Bologna, XVI:254-278, Figg. I-XII
17. Hamilton, K.G.A., 1971, The insect wing, Part I. Origin and development of wings from notal lobes, J. Kansas Ent. Soc., 44(4):421-433
18. Hamilton, K.G.A., 1972, The insect wing, Part II.Vein homology and the archetypal insect wing, J. Kansas Ent. Soc., 45(1):54-58
19. Hamilton, K.G.A., 1972, The insect wing, Part III.Venation of the orders, J. Kansas Ent. Soc., 45(2):145-162
20. Hamilton, K.G.A., 1972, The insect wing, Part IV.Venational trends and the phylogeny of the winged orders, J. Kansas Ent. Soc., 45(3):295-308
21. Hatch, G., 1966, Structure and mechanics of the dragofnly thorax, Ann. Ent. Soc. Am., 59(4):702-714
22. Kukalova-Peck, J., 1982, Origin of the insect wing and wing articulation from the arthropodan leg, Can. J. Zool., 61:1618-1669
23. Kukalova-Peck, J., 1978, Origin and evolution of insect wings and their relation to metamorphosis, as documented by the fossil record, J. Morph., 156:53-126
24. Kukalova-Peck, J., 1984, Ephemeroid wing venation based upon new gigantic Carboniferous mayflies and basic morphology, phylogeny, and metamorphosis of pterygote insects (Insecta: Ephemerida), Can. J. Zool., 63:933-955
25. Kukalova-Peck, J., 1986, New Carboniferous Diplura, Monura, and Thysanura, the hexapod ground plan, and the role of thoracic side lobes in the origin of wings (Insecta), Can. J. Zool., 65:2327-2345
26. Kukalova-Peck, J., 1992, The "Uniramia" do not exist: The ground plan of the Pterygota as revealed by Permian Diaphanopterodea from Russia (Insecta: Palaeodictyopteroidea), Can. J. Zool., 70:236-255
27. Kukalova-Peck, J., & C. Brauckmann, 1990, Wing folding in pterygote insects, and the oldest Diaphanopterodea from the early Late Carboniferous of West Germany, Can. J. Zool., 68:1104-1111
28. Kukalova-Peck, J., & E.S. Richardson, Jr., 1983, New Homoiopteridae (Insecta: Paleodictyoptera) with wing articulation from Upper Carboniferous strata of Mazon Creek, Illinois, Can. J. Zool., 61: 1670-1687
29. Kukalova-Peck, J., & N.D. Sinichenkova, 1992, The wing venation and systematics of Lower Permian Diaphonopterodea from the Ural Mountains, Russia (Insecta: Palaeoptera), Can. J. Zool., 70:229-235
30. Labhart, T., & D.-E. Nilsson, 1995, The dorsal eye of the dragonfly Sympetrum: specializations for prey detection against the blue sky, J. Comp. Physiol., 176:437-453
31. Lavoie, J., M.A. Ali, & J.-G. Pilon, 1981, Bibliographie analytique de las vision chez les odonates, Odonatologica, 10(1):5-28
32. Martens, A., K. Grabow, & D. Hilfert, 1997, Use of female's legs in tandem-linkage during flight of libellulid dragonflies (Anisoptera), Odonatologica, 26(4):477-482
33. Mill, P.J., & C.E.J. Pill, 1981, The structure and physiology of the tarso-pretarsal chordotonal organ in the larva of Anax imperator Leach (Anisoptera: Aeshnidae), Odonatologica, 10(1):29-37
34. Mouze, M., 1972, Etude experimentale des facteurs morphogenetiques et hormonaux reglant la croissance oculaire des Aeshindae (Odonates, Anisoptera), Odonatologica, 1(4):221-232
35. Pfau, H.K., 1971, Struktur und Funktion des sekundaren Kopulationsapparates der Odonaten (Insecta, Palaeoptera), ihre Wandlung in der Stammesgeschichte und Bedeutung fur die adaptive Entfaltung der Ordnung, Zeitschrift fur Morphologie der Tiere, 70:281-371
36. Pfau, H.K., 1986, Untersuchengen zur Konstruktion, Funktion und Evolution des Flugapparates der Libellen (Insecta, Odonata), Tijdschrift voor Entomologie, 129(3):35-123
37. Pfau, H.K., 1991, Contributions of functional morphology to the phylogenetic systematics of Odonata, Adv. Odonatol., 5:109-141
38. Pfau, H.K., 2002, Tandem grip mechanics and tandem linkage shifting in Odoanta - reconstruction of evolution and phylogenetic significance, Int. J. Odonatology, 5(2):129-179
39. Pill, C.E.J., & P.J. Mill, 1981, The structure and physiology of abdominal proprioceptors in larval dragonflies (Ansioptera), Odonatologica, 10(2):117-130
40. Popham, E.J., & E. Bevans, 1979, Functional morphology of the feeding apparatus in larval and adult Aeshna juncea (L.) (Anisoptera: Aeshnidae), Odonatologica, 8(4):301-318
41. Pritchard, G., 1966, On the morphology of the compound eyes of dragonflies (Odonata: Anisoptera), with special reference to their role in prey capture, Proc. R. ent. Soc. Lond. (A), 41(1-3):1-8
42. Riek, E.F., & J. Kukalova-Peck, 1984, A new interpretation of dragonfly wing venation based upn Early Upper Carboniferous fossils from Argentina (Insecta: Odonatoidea) and basic character states in pterygote wings, Can. J. Zool., 62:1150-1166
43. Sargent, W.D., 1937, The internal thoracic skeleton of the dragonflies (Odonata; Suborder Anisoptera), Ann. Ent. Soc. Am., XXX:81-93 + plates I, II
44. Schmidt, E., 1916, Vergleichende Morphologie des 2. und 3. Abdominalsegments bei mannlichen Libellen, Zoologische Jahrbucher, 39:87-200 + plates 9-11
45. Schmidt, E., 1933, Uber die wahren Cerci der Odonaten-Imagines, Zool. Anzeiger, 103(9/10):263-266
46. Sherk, T.E., 1977, Development of the compound eyes of dragonflies (Odonata). I. Larval compound eyes., J. Exp. Zool., 201:391-416
47. Sherk, T.E., 1978, Development of the compound eyes of dragonflies (Odonata). II. Development of the larval compund eyes, J. Exp. Zool., 203:47-60
48. Sherk, T.E., 1978, Development of the compound eyes of dragonflies (Odonata). III. Adult compound eyes., J. Exp. Zool., 203:61-80
49. Sherk, T.E., 1978, Development of the compound eyes of dragonflies (Odonata). IV. Development of the adult compund eyes, J. Exp. Zool., 203:183-200
50. Short, J.R.T., 1955, The morphology of the head of Aeshna cyanea (Müller) (Odonata: Anisoptera), Trans. R. Entomol. Soc. Lond., 106(4):197-211
51. Siva-Jothy, M.T., 1997, Odonate ejaculate structure and mating systems, Odonatologica, 26(4):415-437
52. Snodgrass, R.E., 1909, The thorax of insects and the articulation of the wings, Proc. U.S. Nat'l. Mus., XXXVI:511-595 + plates 40-69
53. Snodgrass, R.E., 1993, Principles of Insect Morphology, Cornell University Press, Ithaca, NY [Reprint of 1935 edition]
54. Snodgrass, R.E., 1954, The dragonfly larva, Smithsonian Misc. Coll., 123(2):1-38, Washington, D.C.
55. Trueman, J.W.H., 1990, Evolution of insect iwngs: a limb exite plus endite model, Can. J. Zool., 68:1333-1335
56. Wakeling, J.M., 1997, Odonatan wing and body morphologies, Odonatologica, 26(1):35-52
57. Watson, J.A.L., 1966, Genital structure as an isolating mechanism in Odonata, Proc. R. ent. Soc. Lond. (A), 41(10-12):171-174 [Libellulidae: Trapezostigma]
58. Whedon, A.D., 1938, The aortic diverticula of the Odonata, J. Morphology, 63(2):229-261
59. Whitten, J.M., 1962, Homology and development of insect wing tracheae, Ann. Ent. Soc. Am., 55:288-295
60. Wooton, R.J., 1979, Function, homology and terminology in insect wings, Syst. Entomol., 4:81-93
61. Wooton, R.J., 1991, The functional morphology of the wings of Odonata, Adv. Odonatol., 5:153-169