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The Cyto-taxonomy of Coleoptera1,2

Published online by Cambridge University Press:  31 May 2012

Stanley G. Smith
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Extract

As will be apparent, a study such as this serves a dual purpose in elucidating certain problems of phylogenetic relationships, either broad or narrow, and at the same time allowing the demonstration of the means by which the chromosomes themselves have undergone changes in their number, morphology, or mechanical properties, during the course of their phylogeny. That is to say, such lines of investigation have a direct appeal to both the taxonomist and the pure cytologist.

Type
Articles
Information
The Canadian Entomologist , Volume 82 , Issue 3 , March 1950 , pp. 58 - 68
Copyright
Copyright © Entomological Society of Canada 1950

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References

Agar, W. E. 1911. The spermatogenesis of Lepidosiren paradoxa. Quart. J. Micr. Sci. 57: 144.Google Scholar
Asana, J. J., Makino, S., and Niiyama, H.. 1942. A chromosome survey of some Indian insects. IV. On the sex chromosomes of some species of beetles (Coleoptera). Cytologia 12: 187205.CrossRefGoogle Scholar
Blackwelder, R. E. 1939. Catalogue of the Coleoptera of America, north of Mexico. Fourth supplement 1933 to 1938 (inclusive). The Cosmos Press, Cambridge, U.S.A.Google Scholar
Böving, A. G., and Craighead, F. C.. 1931. An illustrated synopsis of the principal larval forms of the order Coleoptera. Ent. Amer. 11: 1351.Google Scholar
Goldsmith, W. M. 1919. A comparative study of the chromosomes of the tiger beetles (Cicindelidae). J. Morph. 32: 437487.CrossRefGoogle Scholar
Guénin, H. A. 1949. L'évolution de la formule chromosomique dans le genre Blaps (Coleopt. Tenebr.). Revue Suisse de Zool. 56 (22).Google Scholar
Gunson, M. M. 1945. The meiotic phase of Calandra oryzae. Quart. J. Micr. Sci. 85: 107116.Google Scholar
Hayden, M. A. 1925. Karyosphere formation and synapsis in the beetle, Phanaeus. J. Morph. 40: 261298.CrossRefGoogle Scholar
Hoy, W. E. 1918. A study of somatic chromosomes. II. The chromosomes in embryos of Epilachna borealis and Diabrotica vittata. Biol. Bull. 35 166174.CrossRefGoogle Scholar
Inkmann, F. 1933. Beiträge zur Entwicklungsgeschichte des Kornkäfers (Calandra granaria L.). Die Anfangsstadien der Embryogenese. Zool. Jahrb., Abt. Anat. 56: 521558.Google Scholar
Leng, C. W. 1920. Catalogue of the Coleoptera of America, north of Mexico. The Cosmos Press, Cambridge, U.S.A.Google Scholar
Leng, C. W., and Mutchler, A. J.. 1927. Catalogue of the Coleoptera of America, north of Mexico. Supplement 1919 to 1924 (inclusive). The Cosmos Press, Cambridge, U.S.A.Google Scholar
Leng, C. W., and Mutchler, A. J.. 1933. Catalogue of the Coleoptera of America, north of Mexico. Second and third supplements 1925 to 1932 (inclusive). The Cosmos Press, Cambridge, U.S.A.Google Scholar
Mikulska, I. 1949. Cytological studies upon genus Otiorrhynchus (Curculionidae, Coleoptera) in Poland. Experientia 5: 473474.CrossRefGoogle ScholarPubMed
Prowazek, S. 1902. Spermatologische Studien. II. Spermatogenese des Nashornkäfers (Oryctes nasicornis L.). Arb. Zool. Inst. Univ. Wien, 13: 223236.Google Scholar
Scott, A. C. 1936. Haploidy and aberrant spermatogenesis in a coleopteran, Micromalthus debilis Le Cont. J. Morph. 59: 485515.CrossRefGoogle Scholar
Shaffer, E. L. 1917. Mitochondria and other cytoplasmic structures in the spermatogenesis of Passulus cornutus. Biol. Bull. 22: 407435.CrossRefGoogle Scholar
Smith, S. G. 1949. Evolutionary changes in the sex chromosomes of Coleoptera. I. Wood borers of the genus Agrilus. Evolution 3: 344357.CrossRefGoogle ScholarPubMed
Stevens, N. M. 1906. Studies in spermatogenesis. A comparative study of the heterochromosomes in certain species of Coleoptera, Hemiptera and Lepidoptera, with especial reference to sex determination. Carneg. Inst. Wash., Tub. No. 36: 3374.Google Scholar
Stevens, N. M. 1909. Further studies on the chromosomes of the Coleoptera, J. Exp. Zool. 6: 101121.CrossRefGoogle Scholar
Strasburger, E. H. 1936. Uber Störungen der Eientwicklung bei Kreuzungen von Epilachna chrysomelina F. mit. Epilachna capensis Thunb. Zeits. Ind. Abs. Verer. 71: 538545.Google Scholar
Suomalainen, E. 1940a. Beiträge zur Zytologie der parthenogenetischen Insekten. Ann. Acad. Sci. Fenn., A, 54: 1145.Google Scholar
Suomalainen, E. 1940b. Polyploidy in parthenogenetic Curculionidae. Hereditas 26: 5164.CrossRefGoogle Scholar
Suomalainen, E. 1947. Parthenogenese und Polyploidie bei Rüsselkäfern (Curculionidae). Hereditas 33: 425456.CrossRefGoogle ScholarPubMed
Tiegs, O. W., and Murray, F. V.. 1938. The embryonic development of Calandra. Quart. J. Micr. Soc., N.S., 80: 159284.Google Scholar
Yosida, T. 1944. Chromosome studies in the Coleoptera. I. A study of chromosomes in ten species of Coccinellidae and Chrysomelidae. Jap. J. Genet. 20: 107115.CrossRefGoogle Scholar
Yosida, T. 1948. Distinction of three species of Epilachna based on the cytological evidence. Seibutu 2: 107109.Google Scholar
Yosida, T. 1949. Chromosome studies in the Coleoptera. IV. Comparison of the chromosomes in five species of the Scarabaeidae. Trans. Sapporo Nat. Hist. Soc. 18: 4348.Google Scholar