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Theoretical studies on the methodological procedures of radiation breeding

I. New methods in autogamous plants following seed irridation

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Abstract

Radiation breeding for the introduction of additional desirable characters into improved varieties in autogamous plants, especially in cereals, would be much more feasible if more efficient screening methods could be found. Such methods are proposed in this report. From the standpoint of the theory of probability, it is intended to establish effective screening methods by which a desirable X2 mutant can be detected in a minimum total of X2-plants, and/or X1- and X2-plants in the aggregate.

The relative efficiencies of four new methods and the standard method are compared, the “improved ear-to-row method” (method B), the “one-plant-one-grain method” (method C), the “one-plant-two-grain method” (method D) and “one-plant-three-grain method” (method E) all of which are more effective than the “conventional ear-to-row method” (method A). In method B, the total number of X2-plants required to recover at least one desirable X2-plant is obtained when the probability of detecting at least one X2-line with one or more desirable mutants among X2-lines is equal to the probability of detecting at least one desirable mutant among plants in that X2-line. In methods C, D and E, one, two or three grains respectively, taken from each of the X1-plants of the number required to detect at least one desirable X2-plant, are sown to obtain corresponding X2-plants.

The number of X1-plants, total X2-plants, and X1- and X2-plants in the aggregate required to obtain at least one desirable mutant (m, mn and m+mn respectively) shows the following relations: method C>D>A>E>B for m, A≫B≫E≫D>D>C for mn and A≫B≫C>D>E (the last two being very close to each other) for m+mn.

Each of the new methods B, C, D and E will be applicable in radiation breeding. When the discrimination of a mutant is difficult method B will be useful. On the contrary, when a mutant is easily distinguishable, method C, with dense planting in X1, will frequently be much better. In some cases methods D and E, especially D, will be more useful in the practice of radiation breeding than method C. Method A should not be used in any case.

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References

  1. Gaul H., Present aspects of induced mutations in plant breeding. Euphytica 7 (1958): 275–289.

    Google Scholar 

  2. Gregory W. C., X-ray breeding of peanuts (Arachis hypogaea L.). Agron. J. 47 (1955): 396–399.

    Google Scholar 

  3. Gustafsson Å., Mutations in agricultural plants. Hereditas 33 (1947): 1–100.

    Google Scholar 

  4. Hagberg A., Nybom N. and Gustafsson Å., Allelism of erectoides mutation in barley. Hereditas 38 (1952): 510–512.

    Google Scholar 

  5. Lesley M. M., and Lesley J. W., Male-sterile mutants in the tomato from seed treated with the radioactive isotope P 32. Proc. Amer. Soc. Hort. Sci. 71 (1958): 339–343.

    Google Scholar 

  6. Nishimura Y., and Kurakami H., Mutation in rice induced by X-rays. Jap. J. Breeding 2 (1952): 65–71. (in Japanese).

    Google Scholar 

  7. Nishimura, Y., Mutation breeding. Ikushugaku-kakuron (1954): 34–39. Yôkendo, Tokyo. (in Japanese).

  8. Nybom N., Mutation type in barley. Acta Agric. Scand. 4 (1954): 430–456.

    Google Scholar 

  9. Oka H., Induced mutation of polygenes for quantitative characters in rice. J. Hered. 49 (1958): 11–14.

    Google Scholar 

  10. Rawlings J. O., Hanway D. G., and Gardner C. O., Variation in quantitative characters of soybeans after seed irradiation. Agron. J. 50 (1958): 524–528.

    Google Scholar 

  11. Scholz F., Mutationsversuche an Kulturpflanzen IV, V, VII. Kulturpflanze 3 (1955): 69–89, 4 (1956): 228–246, Z. Pflanz. 38 (1957): 181–220, 225–274.

    Google Scholar 

  12. Stadler L. J., Some genetic effects of X-rays in plants. J. Hered. 21 (1930): 3–19.

    Google Scholar 

  13. Stubbe H., und Bandlow G., Mutationsversuche an Kulturpflanzen I. Züchter 17/18 (1947): 365–374.

    Google Scholar 

  14. Yamaguchi H., The estimate of the segregation of seedling mutants in the second generation of irradiated rice. Jap. J. Breeding 9 (1959): 128–134. (in Japanese).

    Google Scholar 

  15. Zacharias M., Mutationsversuche an Kulturpflanzen VI. Züchter 26 (1956): 321–338.

    Google Scholar 

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Authors and Affiliations

  1. National Institute of Agricultural Sciences, Hiratsuka, Japan

    Yoshio Yoshida

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  1. Yoshio Yoshida
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Yoshida, Y. Theoretical studies on the methodological procedures of radiation breeding. Euphytica 11, 95–111 (1962). https://doi.org/10.1007/BF00044811

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  • DOI: https://doi.org/10.1007/BF00044811

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