Obtaining of haploids with use of Hordeum bulbosum method and mutagenesis and analysis of quantitative traits variation in spring barley DH lines

Wojciech Rybiński

office@igr.poznan.pl
Instytut Genetyki Roślin PAN w Poznaniu (Poland)

Tadeusz Adamski


Instytut Genetyki Roślin PAN w Poznaniu (Poland)

Maria Surma


Instytut Genetyki Roślin PAN w Poznaniu (Poland)

Jan Bocianowski


Uniwersytet Przyrodniczy w Poznaniu (Poland)

Abstract

In performed studies on the use of mutagenesis in DH system, the seeds of malting barley cultivar Rudzik were treated with laser light and chemomutagen — N-methyl-N-nitroso urea (MNU). The plants grown from the treated plants were crossed with Hordeum bulbosum. The effectiveness of haploid production was measured by proportion of the obtained seeds to the number of pollinated florets and number of haploids to number of pollinated florets and immature embryos transferred to in vitro culture. The obtained results as compared to control (non-treated seeds) indicates that the applied dose of MNU decreased the effectiveness of haploid production. In result of diploidization, a numerous DH plants were obtained which were propagated and used for estimation of quantitative traits variability in a field trial. The use of multivariate statistical method indicates that DH lines were characterized by a broader range of traits variability in comparison with their initial cultivar Rudzik.


Keywords:

dihaploid lines, Hordeum bulbosum, mutagen, spring barley, quantitative traits

Adamski T., Jeżowski S., Majewska T., Surma M. 1990. Efektywność metody bulbosowej w zależności od genotypu Hordeum vulgare i Hordeum bulbosum. Hodowla Roślin 4/ 5: 1 — 5.
Google Scholar

Beversdorf W.D., Kott L.S. 1987. An in vitro mutagenesis/selection system for Brassica napus. Iowa State J. Res. 61: 435 — 443.
Google Scholar

Caliński T., Dyczkowska A., Kaczmarek Z. 1976. Algorytmy Biometrii i Statystyki. Zeszyt 5: 77 — 113.
Google Scholar

Ceranka B., Chudzik H., Czajka S., Kaczmarek Z. 1997. Wieloimienna analiza wariancji dla doświadczeń wieloczynnikowych. Algorytmy Biometrii i Statystyki. Zeszyt 6: 51 — 60.
Google Scholar

Devaux P., Adamski T., Surma M. 1990. Studies on low cross abilities encountered with the Hordeum bulbosum method for haploid production of barley, Hordeum vulgare L. Plant Breeding 104: 305 — 311.
Google Scholar

Ehrenberg L., Gustafsson A., Lundqvist U. 1961. Viable mutants induced in barley by ionizing radiation and chemical mutagens. Hereditas 47: 243 — 282.
Google Scholar

Kapała A., Rybiński W. 1996. Zmienność i jakość białka oraz zdolność plonowania u krótkosłomych mutantów jęczmienia jarego. Biul. IHAR 200: 191 — 195.
Google Scholar

Kasha K.J., Kao K.N. 1970. High frequency haploid production in barley (Hordeum vulgare L.). Nature 225: 874 — 876.
Google Scholar

Kirishnaswami R. 1967. Radiation induced dwarf mutants in barley. Curr. Sci. 36(12): 327 — 328.
Google Scholar

Kozak M., Bocianowski J., Sawkojć S., Wnuk A. 2010. Call for more graphical elements in statistical teaching and consultancy. Biometrical Letters 47(1): 57 — 68.
Google Scholar

Kozak M., Bocianowski J., Rybiński W. 2013. Note on the use of variation for data from agricultural factorial experiments. Bulgarian J. Agric. Sci. 19 (4): 644 — 646.
Google Scholar

Kumar S., Bansal H. C., Singh D., Swaminathan M. S. 1967. Pathways of height reduction in induced dwarf mutation in barley. Z. Pflanzenzüchtung 57: 317 — 324.
Google Scholar

Laib Y., Szarejko I., Polok K., Małuszyński M. 1996. Barley anther culture for doubled haploid mutant production. Mutation Breeding Newsletter 42: 13 — 15.
Google Scholar

Małuszyński M., Małuszyńska J., Malepszy S. 1978. Wybrane zagadnienia mutagenezy roślin wyższych. Mutagenza Roślin Wyższych. Materiały III ogólnopolskiej konferencji mutacyjnej. Uniwersytet Śląski, Katowice 1978: 15 — 30.
Google Scholar

Pickering R.A., Devaux P. 1992. Haploid production: Approaches and use in plant breeding. In: Barley Genetics, Biochemistry, Molecular Biology and Biotechnology (P.R. Shewry ed.). C.A.B. Int. Wallinford, UK: 519 — 547.
Google Scholar

Rencher A.C. 1998. Interpretation of canonical discriminant functions, canonical variates, and principal components. Am. Stat. 46: 217 — 225.
Google Scholar

Rybiński W. 1981. Short-straw forms of spring barley (Hordeum vulgare L.) obtained as a result of MNUA- induced mutations. Genetica Polonica 22 (3): 271 — 287.
Google Scholar

Rybiński W. 1998. Wykorzystanie światła lasera w badaniach nad roślinami wyższymi. Zastosowanie kultur in vitro w fizjologii roślin (F. Dubert, M. Rapacz – edytorzy), Kraków 1998: 169 — 178.
Google Scholar

Rybiński W., Patyna H., Przewoźny T. 1993. Mutagenic effect of laser and chemical mutagens in barley (Hordeum vulgare L.). Genetica Polonica 34 (3): 337 — 343.
Google Scholar

Rybiński W., Adamski T., Surma M. 2000. Wykorzystanie światła lasera i chemomutagenu w badaniach nad uzyskaniem linii podwojonych haploidów jęczmienia. Zesz.ty Probl. Post. Nauk Roln. 473: 291 — 298.
Google Scholar

Rybiński W. 2001. Influence of laser beams combined with chemomutagen (MNU) on the variability of traits and mutation frequency in spring barley. Int. Agrophysics 15: 115 — 119.
Google Scholar

Rybiński w. 2003. Mutagenesis as a tool for improvement of traits in grasspea (Lathyrus sativus L.). Edited by Colin Hanbury, CLIMA, Australia, Lathyrus Lathyrism Newsletter 3: 27 — 31.
Google Scholar

Rybiński W., Pietruszewski S., Kornarzyński K. 2003. Influence of magnetic field with chemomutagen and gamma rays on the variability of yielding parameters in barley. Int. Agrophysics 17: 85 — 91.
Google Scholar

Rybiński W., Pankiewicz K., Bocianowski J., Rębarz M. 2008.Analiza wybranych cech na poziomie fenotypowym i molekularnym u dwu- i wielorzędowych linii podwojonych haploidów jęczmienia jarego (Hordeum vulgare L.) Biul. IHAR 249: 141 — 155.
Google Scholar

Surma M. 1997. Wykorzystanie zjawiska eliminacji chromosomów w hodowli jęczmienia. Akademia Rolnicza w Poznaniu. Seminaria Wydziału Rolniczego, Zeszyt 3: 157 — 174.
Google Scholar

Swanson E. B., Herrgesell M. J., Arnold M., Sippel D. W., Wong R. S. C. 1989. Microspore mutagenesis and selection: Canola plant with field tolerance to the imidazolinones. Theor. Appl. Genet. 78: 525 — 530.
Google Scholar

Szarejko I., Małuszyński M., Polok K., Kilian A. 1991. Plant Mutation Breeding for Crop Improvement. Proceedings of a Symposium, Vienna, 18–22 June 1990: 355 — 378.
Google Scholar

Umba Di-Umba, Małuszyński M., Szarejko I., Zbieszczyk J. 1991. High frequency of DH-mutants from M1 after mutagenic treatment with MNH and sodium azide. Mutation Breeding Newsletter 38: 8 — 9.
Google Scholar

Zapata F. J., Aldemita R. R. 1989. „Induction of salt tolerance in high yielding rice varieties through mutagenesis and anther culture”, Current Options for Cereal Improvement (Małuszyński M., ed.). Kluwer Academic Publishers, Dordrecht: 193 — 202.
Google Scholar


Published
2015-03-31

Cited by

Rybiński, W. (2015) “Obtaining of haploids with use of Hordeum bulbosum method and mutagenesis and analysis of quantitative traits variation in spring barley DH lines ”, Bulletin of Plant Breeding and Acclimatization Institute, (275), pp. 51–63. doi: 10.37317/biul-2015-0029.

Authors

Wojciech Rybiński 
office@igr.poznan.pl
Instytut Genetyki Roślin PAN w Poznaniu Poland

Authors

Tadeusz Adamski 

Instytut Genetyki Roślin PAN w Poznaniu Poland

Authors

Maria Surma 

Instytut Genetyki Roślin PAN w Poznaniu Poland

Authors

Jan Bocianowski 

Uniwersytet Przyrodniczy w Poznaniu Poland

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