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Genetic dimorphism in fruit types in Ægilops speltoides
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  • Original Article
  • Published: 01 May 1963

Genetic dimorphism in fruit types in Ægilops speltoides

  • D Zohary1 &
  • D Imber1 

Heredity volume 18, pages 223–231 (1963)Cite this article

  • 813 Accesses

  • 57 Citations

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References

  • Bowden, W M. 1959. The taxonomy and nomenclature of the wheats, barleys and ryes and their wild relatives. Canad Journ Bot, 37, 657–684.

    Article  Google Scholar 

  • Eig, A. 1929. Monographisch-kritische Uebersicht der Gattung Aegilops. Repert Spec Nov, Reg Veg, Beih. 55, 1–228.

    Google Scholar 

  • Kihara, H, and Lilienfeld, F A. 1932. Genomanalyse bei Triticum und Aegilops. IV. Untersuchungen an Aegilops × Triticum und Aegilops × Aegilops Bastarden. Cytologia, 3, 384–456.

    Article  Google Scholar 

  • Lewis, D. 1954. Comparative incompatibility in angiosperms and fungi. Adv Genetics, 6, 235–285.

    Article  CAS  Google Scholar 

  • Mather, K. 1955. Polymorphism as an outcome of disruptive selection. Evolution. 9, 52–61.

    Article  Google Scholar 

  • Miczynski, K. 1926. Études génétiques sur le genre Aegilops. I. Expériences avec I' Aegilops speltoides Jaub. et Spach. Acta Soc Bot Pol, 4, 20–40.

    Article  Google Scholar 

  • Schiemann, E. 1928. Zytologische und pflanzen-geographische Beiträge zur Gattung Aegilops (II. Mitteilung). Ber Deutsch Bot Ges, 46, 107–123.

    Google Scholar 

  • Sears, E. 1941. Amphidiploids in the seven-chromosome Triticinae. Univ Missouri Agric Exper Sta Res Bull, 336, 1–46.

    Google Scholar 

  • Zhukovsky, P M. 1928. A critical systematical survey of the species of the genus Aegilops L. Bull Appl Bot Genet, and Plant Breed, 18, 417–609.

    Google Scholar 

  • Zohary, M. 1937. Die Verbreitungsoekologischen Verhaeltnisse der Pflanzen Palaestinas. I. Die antitelechorischen Erscheinungen. Beih Bot Centralblatt, 56 A, 1–155.

    Google Scholar 

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Author information

Authors and Affiliations

  1. Department of Botany, The Hebrew University, Jerusalem, Israel

    D Zohary & D Imber

Authors
  1. D Zohary
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  2. D Imber
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Cite this article

Zohary, D., Imber, D. Genetic dimorphism in fruit types in Ægilops speltoides. Heredity 18, 223–231 (1963). https://doi.org/10.1038/hdy.1963.24

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  • Received: 22 November 1962

  • Issue date: 01 May 1963

  • DOI: https://doi.org/10.1038/hdy.1963.24

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This article is cited by

  • Genetic mapping of the gene for brittle rachis in a Triticum aestivum—Aegilops triuncialis introgression line

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  • Tandem repeats on an eco-geographical scale: outcomes from the genome of Aegilops speltoides

    • Olga Raskina
    • Leonid Brodsky
    • Alexander Belyayev

    Chromosome Research (2011)

  • Cytological and Microsatellite Mapping of the Gene for Brittle Rachis in a Triticum Aestivum-Aegilops Tauschii Introgression Line

    • N. Watanabe
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    Euphytica (2006)

  • Microsatellite mapping of the genes for brittle rachis on homoeologous group 3 chromosomes in tetraploid and hexaploid wheats

    • Nobuyoshi Watanabe
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    Journal of Applied Genetics (2006)

  • Comparative genetic maps reveal extreme crossover localization in the Aegilops speltoides chromosomes

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    Theoretical and Applied Genetics (2005)

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