References on Insect & Arthropod Phylogeny & Evolution &  Development

A Web Page by Roy J. Beckemeyer

Last Updated 20 July 2007                                         

1. Akram, M.  2000. Arthropods: Developmental diversity within a (super) phylum.  Proceedings, National Academy of Science.  97(9):4438-4441.
2. Andersen, N. M.  1997. Phylogenetic tests of evolutionary scenarios: the evolution of flightlessness andwing polymorphism in insects.  In Grandcolas, P. (Editor). 1997. The Origin of Biodiversity in Insects: Phylogenetic tests of evolutionary scenarios.  Memoires du Museum National D'Histoire Naturelle.  Tome 173: 93-108. Paris.
3. Arias, A. M., & A. Stewart, 2002, Molecular principles of animal development, Oxford University Press, NY.
4. Beutel, R.G., and S. N. Gorb.  2001.  Ultrastructure of attachment specializations of hexapods (Arhtropoda): evolutionary patterns inferred from a revised ordinal phylogeny.  J. Zool. Syst. Evol. Research.  39:177-207.
5. Beutel, R. G. and S> N. Gorb.  2006.  A revised interpretation of the evolution of attachment sructures in Hexapoda with special emphasis on Mantophasmatodea.  Arthropod Systematics and Phylogeny.  64(1): 3-25
6. Boudreaux, H.B.  1987. Arthropod Phylogeny: With special reference to insects.  Robert E. Krieger Publishing Company.  Malabar, Florida.
7. Bradkey, J. C.  1939.  Guide to the study of the evolution of the wings of insects.  Daw, Illston & Co., Ithaca, NY.  69 pp.
8. Browne, J., and C. H. Scholtz.  1999.  A phylogeny of the families of Scarabaeoidea (Coleoptera).  Systematic Entomology.  24:51-84.
9. Budd, G. E.  2001.  Why are arthropods segmented?  Evolution & Development. 3(5):332-342.
10. Burnham, L.  1978.  Survey of social insects in the fossil record.  Psyche.  85-133.
11. Cameron, S. L., A. T. Beckenbach, M. Dowton, and M. F. Whiting.  2006.  Evidence from mitochondrial genomics on interordinal relationships in insects.  Arhtropod Systematics and Phylogeny.  64(1): 27-34.
12. Collins, A. G., & J. W. Valentine.  2001.  Defining phyla: evolutionary pathways to metazoan body plans.  Evolution & Development. 3(6):432-442.
13. Cranston, P.S., & P.J. Gullan.   Phylogeny of Insects.  Pp. 882-898 In  V. H. Resh and R. T. Carde (Ed's.) Encyclopedia of Insects.  Academic Press.  San Diego, CA.
14. Delsuc, F., M.J. Phillips, & D. Penny.  Comment on "Hexapod origins: Monophyletic or paraphyletic?" Science. 301:1482d. [See also Nardi, 2003a, 2003b.]
15. Deuve, T. (Ed.), 2001, Origin of the Hexapoda, Annales de la Societe Entomologique de France, 37(1-2):1-304.
16. Dowton, M., & A. D. Austin.  1994. Molecular phylogeny of the insect order Hymenoptera: Apocritan relationships.  Proceedings, National Academy of Science.  91: 9911-9915.
17. Dwortin, I. M., S. Tanda, & E. Larsen.  2001.  Are entrenched characters developmentally constrained? Creating biramous limbs in an insect.  Evolution & Development.  3(6):424-431.
18. Eberhard, W. G.  2001.  Multiple origins of a major novelty: moveable abdominal lobes in male sepsid flies (Diptera: Epsidae), and the question of developmental constraints.  Evolution & Development.  3(3):206-222.
19. Eberhard, W. G.  2002.  Restraint with constraints: a reply to Wagner and Mueller.  Evolution & Development.  4(1):7-8.
20. Eggleton, P., 2001, Termites and trees: a review of recent advances in termite phylogenetics, Insectes Sociaux, 48:187-193.
21. Flook, P.K., S. Klee, & C.H.F. Rowell, 1999, Combined molecular phylogenetic analysis of Orthoptera (Arthropoda, Insecta) and implications for their higher systematics, Systematic Biology, 48(2):233-253.
22. Forey, P.L., C.J. Humphries, L. L. Kitching, R. W. Scotland, D. J. Siebert, & D. M. Williams, 1992, Cladistics: A practical course in systematics, The Systematics Association Publication No. 10, Clarendon Press, Oxford.
23. Fortey, R.A., & R. H. Thomas (Editors). Arthropod Relationships.  The Systematics Association Special Volume Series 55.  Chapman & Hall.  London.
24. Gassman, D.  2004.  The phylogeny of Southeast Asian and Indo-Pacific Calisnemiinae (Odonata, Platycnemididae).  Bonner zoologische Beiträge.  53(1/2):37-80.
25. Gilbert, S.F., 2003, Developmental Biology, Seventh Edition, Sinauer Associates, Sunderland, MA.
26. Giribet, G., & C. Ribera.  2000. A review of Arthropod phylogeny: New data based on ribosomal DNA sequences and direct character optimization.  Cladistics. 16: 204-231.
27. Grandcolas, P. (Editor). 1997. The Origin of Biodiversity in Insects: Phylogenetic tests of evolutionary scenarios.  Memoires du Museum National D'Histoire Naturelle.  Tome 173. Paris.
28. Grandcolas, P., & C. D'Haese.  2001.  The phylogeny of cockroach families: Is the current molecular hypothesis robust?  Cladistics. 17:48-55.
29. Grimaldi, D., & M.S. Engel, 2005, Evolution of the insects, Canbridge University Press, Cambridge, England.
30. Gupta, A. P. (Editor).  Arthropod Phylogeny.  1979.  Van Nostrand Rheinhold Company.  New York.
31. Haas, F., & J. Kukalova-Peck.  2001.  Dermaptera hindwing structure and folding: New evidence for familial, ordinal and superordinal relationships within Neoptera (Insecta).  European Journal of Entomology.  98:445-509.
32. Heming, B.S., 2003, Insect development and evolution, Cornell University Press, Ithaca, NY.
33. Hennig, W., 1966, Phylogenetic Systematics, University of Illinois Press, Chicago.
34. Hennig, W.  1981.  Insect Phylogeny.  John Wiley & Sons.  Chichester.
35. Hörnschemeyer, T.  2002.  Phylogenetic significance of the wing base of Holometabola (Insecta).  Zoologica Scripta.  31(1):17-29.
36. Hovmöller, R., T. Pape, & M. Källersjo, 2002, The Palaeoptera Problem: Basal Pterygote Phylogeny inferred from 18S and 28S rDNA sequences, Cladistics, 18:313-323
37. Hughes, C. L., & T. C. Kaufman.  2002.  Hox genes and the evolution of the arthropod body plan.  Evolution & Development.  4(6):459-499. 
38. Jarvis, K.J., F. Haas, and M.F. Whiting.  2005.  Phylogeny of earwigs (Insects: Dermaptera) based on molecular and morphological evidence: reconsidering the classification of Dermaptera.  Systematic Entomology.  30:442-453.
39. Kamimura, Y., 2004, In search of the origin of twin penises: Molecular phylogeny of earwings (Dermaptera: Forficulina) based on mitochondrial and nuclear ribosomal RNA genes, Annals of the Entomological Society of America, 97(5):903-912
40. Kitching, I.J., P.L. Forey, C. J. Humphries, & D. M. Williams, 2000, Cladistics: The theory and practice of parsimony analysis, The Systematics Association Publication No. 11, Oxford.
41. Kjer, K.M., 2004, ALigned 18S and Insect Phylgoeny, Systematic Biology, 53(3):506-514
42. Klass, K.-D.  2002.  Mantophasmatodea: A new insect order? Response to Tilgener. Science. 297:731a.
43. Klass, K-D., O. Zompro, N. P. Kristensen, & J. Adis.  2002.  Mantophasmatodea: A new insect order with extant member sin the Afrotropics.  Science. 296:1456-1459. [See also Klass, 2002 and Tlgner, 2002.]
44. Kopp, A., & J. R. True.  2002.  Evolution of male sexual characters in the Oriental Drosophila melanogaster species group.  Evolution & Development.  4(4):278-291.
45. Kristensen, N. P.  1998.  The groundplan and basal diversification of the hexapods.  In Fortey, R.A., & R. H. Thomas (Editors). Arthropod Relationships.  The Systematics Association Special Volume Series 55:281-293.  Chapman & Hall.  London.
46. Kukalova-Peck, J.  1998.  Arthropod phylogeny and 'basal' morphological structures.  In Fortey, R.A., & R. H. Thomas (Editors). Arthropod Relationships.  The Systematics Association Special Volume Series 55:249-268.  Chapman & Hall.  London.
47. Maekawa, K., & T. Matsumoto.  2000. Molecular phylogeny of cockroaches (Blattaria) based on kmitochondrial COII gene sequences.  Systematic Entomology. 25:511-519.
48. Manton, S.M., 1977, The Arthropoda: Habits, functional morphology and evolution, Clarendon Press, Oxford.
49. Martins-Neto, R. G.  2002.  The fossil tabanids (Diptera: Tabanidae): When they began to appreciate warm blood and when they began to transmit diseases? Memoirs of the Institute of Oswaldo Cruz.  Rio de Janeiro.  97:__-__.
50. Nardi, F., G. Spinsanti, J.L. Boore, A. Carapelli, R. Dallai, & F. Frati.  2003a.  Hexapod origins: Monophyletic or paraphyletic?  Science. 299:1887-1889. [See also Delsuc et al, 2003, and Nardi et al. 2003b.]
51. Nardi, F., G. Spinsanti, J.L. Boore, A. Carapelli, R. Dallai, & F. Frati.  2003b.  Response to comment on "Hexapod origins: Monophyletic or paraphyletic?"  Science. 301:1482e. [See also Delsuc et al, 2003, and Nardi et al. 2003a.]
52. Nei, M., & S. Kumar, 2000, Molecular evolution and phylogenetics, Oxford University Press, NY.
53. Ogden, T.H., & M.F. Whiting, 2003, The problem with "the Paleoptera Problem:" sense and sensitivity, Cladistics, 19:432-442
54. Rasnitsyn, A. P.  1998.  Problem of the basal dichotomy of the winged insects.  In Fortey, R.A., & R. H. Thomas (Editors). Arthropod Relationships.  The Systematics Association Special Volume Series 55:237-248.  Chapman & Hall.  London.
55. Regier, J.C>, J.W. Shultz, & R.E. Kambic, 2004, Phylogeny of basal Hexapod lineages and estimates of divergence times, Annals of the Entomological SOciety of America, 97(3):411-419
56. Rogers, B. T., M. D. Peterson, & T. C. Kaufman.  2002.  The development and evolution of insect mouthparts as revealed by the expression patterns of gnathocephalic genes.  Evolution & Development.  4(2):96-110.
57. Schram, F. R., & S. Koenemann. 2001. Developmental genetics and arthropod evolution: part I, on legs.  Evolution & Development. 3(5):343-354.
58. Shao, H., Zhang, Y., Ke, X., Yue, Q., & Yin, W.  2000.  Sequence of mitochondrial DNA cytochrome oxidase II in Cyrptopygus nanjiensis and phylogeny of the Apterygota.  Science in China (Series C). 43(6):589-596. [Collembola]
59. Sharov, A.G.  1966. Basic Arthropodan Stock.  Pergamon Press. Oxford. 
60. Shimizu, A.  1994.  Phylogeny and classification of the family Pompilidae (Hymenoptera).  Bulletin of Natural History No. 2.  Tokyo Metropolitan University.  142 pp.
61. Tilgner, E.  2002.  Mantophasmatodea: A new insect order? Science. 297:731a. [Comments on Klass et al, 2002.]
62. Wagner, G. P., & G. B. Mueller.  2002.  Evolutionary innovations overcome ancestral constraints: a re-examination of character evolution in male sepsid flies.  Evolution & Development.  4(1):1-6.
63. Wheeler, W.C., M. Whiting, Q.D. Wheeler, & J. M. Carpenter.  2001. The phylogeny of the extant Hexapod orders.  Cladistics. 17:113-169.
64. Whitfield, J.B.  1998. Phylogeny and evolution of host-parasite interactions in Hymenoptera.  Annual Review of Entomology.  43:129-151.
65. Wiley, E.O., 1981, Phylogenetics: The theory and practice of phylogenetic systematics, Wiley Interscience, NY.
66. Wiley, E.O., D. Siegel-Causey, D.R. Brooks, & V.A. Funk, 1991, The Complete Cladist: A primer of phylogenetic systematics, The University of Kansas Natural History Museum Special Publication No. 19, Lawrence, Kansas.
67. Willmann, R.  1998.  Advances and problems in insect phylogeny.  In Fortey, R.A., & R. H. Thomas (Editors). Arthropod Relationships.  The Systematics Association Special Volume Series 55:267-279.  Chapman & Hall.  London.
68. Woodworth, C. W.  1906.  The wing veins of insects.  University of California Publications Technical Bulletins.  ENtomology. 1(1):1-152.
69. Yang, A. S.  2001.  Modularity, evolvablity, and adaptive radiations: a comparison of the hemi- and holometabolous insects.  Evolution & Development.  3(2):59-72.
70. Yoshizawa, K., & T. Saigusa.  2001. Phylogenetic analysis of paraneopteran orders (Insecta: Neoptera) based on forewing base structure, with comments on monophyly of Auchenorrhyncha (Hemiptera). Systematic Entomology. 26:1-13.