Evaluation of Fusarium head blight resistance types in winter triticale using phenotypic and metabolic markers

Halina Wiśniewska


Instytut Genetyki Roślin PAN (Poland)

Tomasz Góral

t.goral@ihar.edu.pl
Instytut Hodowli i Aklimatyzacji Roślin - Państwowy Instytut Badawczy (Poland)
https://orcid.org/0000-0001-9130-6109

Piotr Ochodzki


Instytut Hodowli i Aklimatyzacji Roślin - Państwowy Instytut Badawczy (Poland)
https://orcid.org/0000-0003-3228-0783

Dorota Walentyn-Góral


Instytut Hodowli i aklimatyzacji Roślin - Państwowy Instytut Badawczy (Poland)

Michał Kwiatek


Instytut Genetyki Roślin PAN (Poland)
https://orcid.org/0000-0001-9442-3124

Maciej Majka


Instytut Genetyki Roślin PAN (Poland)
https://orcid.org/0000-0002-5039-9465

Jolanta Belter


Instytut Genetyki Roślin PAN (Poland)
https://orcid.org/0000-0003-1934-448X

Zofia Banaszak


Danko Hodowla Roślin Sp. z o.o. (Poland)

Mirosław Pojmaj


Danko Hodowla Roślin Sp. z o.o. (Poland)

Danuta Kurleto


Danko Hodowla Roślin Sp. z o.o. (Poland)

Marcin Konieczny


Danko Hodowla Roślin Sp. z o.o. (Poland)

Grzegorz Budzianowski


Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR (Poland)

Alicja Cicha


Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR (Poland)

Kazimierz Paizert


Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR (Poland)

Przemysław Matysik


Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR (Poland)

Abstract

A collection of 106 genotypes of winter triticale (X Triticosecale Wittmack) was evaluated for resistance to Fusarium head blight caused by Fusarium culmorum and for toxin accumulation in grain. The inoculation tests were carried out in two locations. Fusarium head blight indexes (FHBi) describing combined type I and type II of resistance, the percentage of kernels with visible symptoms of Fusarium damage (FDK; type III of resistance) and the level of Fusarium toxins (type V of resistance) were evaluated. The content of the type B trichothecenes: deoxynivalenol (DON) and derivatives, nivalenol (NIV) and zearalenone (ZEN) in grain was analyzed. Moreover, the amount of ergosterol was evaluated to measure the level of Fusarium mycelium in grain. The FHB indexes were similar in both locations and on average amounted to 18.2%. The percentage of FDK varied for individual triticale genotypes. The average FDK was 29.5% (FDK weight) and 37.6% (FDK number). Regarding the FDK of respective genotypes, a significant level of correlation between locations was found. There was a lack of correlation between FHBi and FDK in Poznań, and in Radzików, a very weak, but significant correlation between FHBi and FDK was observed. The content of Fusarium toxins in the grain was very high. The average of DON content for both locations was 8.649 mg/kg. The average content of NIV was also high and amounted to 5.839 mg/kg. The average content of zearalenone was 1.382 mg/kg. High correlation coefficient for DON and FDK was found. Correlation coefficients between ergosterol and FDK, as well as, among ergosterol and sum of type B trichothecenes in grain were significant. The principal component analysis revealed six triticale genotypes combining a high level of resistance of different types


Keywords:

deoxynivalenol, ergosterol, Fusarium culmorum, X Triticosecale, zearalenone

Arseniuk E. 2015. Triticale Abiotic Stresses — An Overview. In: Eudes F., editor. Triticale. Springer
Google Scholar

International Publishing Switzerland 2015: 69 — 81 pp.
Google Scholar

Arseniuk E., Góral T. 2015. Triticale Biotic Stresses — Known and Novel Foes. In: Eudes F., editor.
Google Scholar

Triticale. Springer International Publishing Switzerland 2015: 83 — 108 pp.
Google Scholar

Arseniuk E., Oleksiak T. 2002. Production and breeding of cereals in Poland. Proc. 5th Int. Triticale Symp.,
Google Scholar

IHAR Radzików, Poland 30 June — 5 July. I: 7 — 13.
Google Scholar

Bai G. H., Plattner R., Desjardindes A., Kolb F. 2001. Resistance to Fusarium head blight and deoxynivalenol
Google Scholar

accumulation in wheat. Plant Breed. 120: 1 — 6.
Google Scholar

Buerstmayr H., Steiner B., Hartl L., Griesser M., Angerer N., Lengauer D., Miedaner T., Schneider B.,
Google Scholar

Lemmens M. 2003. Molecular mapping of QTLs for Fusarium head blight resistance in spring wheat. II.
Google Scholar

Resistance to fungal penetration and spread. Theor. Appl. Genet. 107: 503 — 508.
Google Scholar

Bushnell W. R. 2001. What is known about infection pathways in Fusarium head blight? In: S. Canty et al.
Google Scholar

(ed.) Proceedings of the 2001 National Fusarium Head Blight Forum. Kinko's, Okemos, MI.: 105.
Google Scholar

Comeau A., Langevin F., Savard M. E., Gilbert J., Dion Y., Rioux S., Martin S. A., Haber S., Voldeng H., Fedak G., Somers D., Eudes F. 2008. Improving Fusarium head blight resistance in bread wheat and triticale for Canadian needs. Cereal Res. Commun. 36 (6): 91 — 92.
Google Scholar

Cowger C., Patton-Ozkurt J., Brown-Guedira G., Perugini, L. 2009. Post-anthesis moisture increased Fusarium head blight and deoxynivalenol levels in North Carolina winter wheat. Phytopathology 99: 320 — 327.
Google Scholar

Cowger C., Arrellano C. 2010. Plump kernels with high deoxynivalenol linked to late Gibberella zeae infection and marginal disease conditions in winter wheat. Phytopathology. 100: 719 — 28.
Google Scholar

Dhariwal R., Fedak G., Dion Y., Pozniak C., Laroche A., Eudes F., Randhawa H. 2018. High density single nucleotide polymorphism (SNP) mapping and quantitative trait loci (QTL) analysis in a biparental spring triticale population localized major and minor effect Fusarium head blight resistance and associated traits QTL. Genes 9: 19.
Google Scholar

Edwards S. G. 2004. Influence of agricultural practices on Fusarium infection of cereals and subsequent contamination of grain by trichothecene mycotoxins. Toxicol Lett 153: 29 — 35
Google Scholar

Faris J. D., Li W. L., Liu D. J., Chen P. D., Gill B.S. 1999. Candidate gene analysis of quantitative disease resistance in wheat. Theor. Appl. Genet. 98: 219 — 225.
Google Scholar

Feuillet C, Keller B. 2004. Molecular markers for disease resistance: the example wheat. In: Biotechnology in Agriculture and Forestry, vol. 55, Molecular Marker Systems, H. Loerz and G. Wenzel (eds.), Springer — Verlag, Berlin, Heidelberg: 353 — 370.
Google Scholar

Foroud N. A., Eudes, F. 2009. Trichothecenes in cereal grains. Int. J Mol. Sci. 10: 147 — 173.
Google Scholar

Góral T. 2007. Ocena odporności rodów pszenicy i pszenżyta na fuzariozę kłosów, pleśń śniegową i rdzę brunatną w Radzikowie w 2006 roku. Komunikat. Biul. IHAR 246: 31 — 44.
Google Scholar

Góral T., Ochodzki P. 2006. Resistance of Polish winter triticale cultivars to Fusarium head blight and accumulation of Fusarium — mycotoxins in grain. Proc. of 16th International Triticale Symposium, September 3–7 2006, Stellenbosch, South Africa: 140 — 143.
Google Scholar

Góral T., Wiśniewska H., Ochodzki P. Walentyn-Góral D. 2016. Higher Fusarium toxin accumulation in grain of winter triticale lines inoculated with Fusarium culmorum as compared with wheat. Toxins 8: 301.
Google Scholar

Imathiu S., Edwards S., Ray R., Back M. 2014. Review article: Artificial inoculum and inoculation techniques commonly used in the investigation of Fusarium head blight in cereals. Acta Phytopathol. Entomol. Hungarica 49: 129 — 139.
Google Scholar

Kalih R., Maurer H. P., Miedaner T. 2015. Genetic architecture of Fusarium head blight resistance in four winter triticale populations. Phytopathology 105: 334 — 341.
Google Scholar

Kalih R., Maurer H. P., Hackauf B., Miedaner T. 2014. Effect of a rye dwarfing gene on plant height, heading stage, and Fusarium head blight in triticale (×Triticosecale Wittmack). Theor. Appl. Genet. 127: 1527 — 36.
Google Scholar

Keller B., Feuillet C., Messmer M. 2000. Genetics of disease resistance. In: Mechanisms of resistance to plant diseases. Slusarenko, Fraser, van Loon (Eds.), Kluwer Academic Publishers: 101 — 160.
Google Scholar

Langevin F., Eudes F., Comeau A. 2004. Effect of trichothecenes produced by Fusarium graminearum during Fusarium head blight development in six cereal species. Eur. J. Plant Path. 110: 735 — 746.
Google Scholar

Mesterházy A., Lehoczki-Krsjak S., Varga M., Szabó-Hevér Á., Tóth B. Lemmens M. 2015. Breeding for FHB Resistance via Fusarium damaged kernels and deoxynivalenol accumulation as well as inoculation methods in winter wheat. Agricultural Sciences 6: 970 — 1002.
Google Scholar

Mesterhazy A., Bartok T., Mirocha C. G., Komoroczy R. 1999. Nature of wheat resistance to Fusarium head blight and the role of deoxynivalenol for breeding. Plant Breed. 118: 97 — 110.
Google Scholar

Mesterházy Á. 1995. Types and components of resistance to Fusarium head blight of wheat. Plant Breed. 114: 377 — 386.
Google Scholar

Miedaner T. 1997. Breeding wheat and rye for resistance to Fusarium diseases. Plant Breeding 116: 201 — 220.
Google Scholar

Miedaner T., Heinrich N., Schneider B., Oettler G., Rohde S., Rabenstein F. 2004. Estimation of deoxynivalenol (DON) content by symptom rating and exoantigen content for resistance selection in wheat and triticale. Euphytica 139: 129 — 132.
Google Scholar

Miedaner T., Kalih, R., Großmann M. S., Maurer H. P. 2016. Correlation between Fusarium head blight severity and DON content in triticale as revealed by phenotypic and molecular data. Plant Breed. 135: 31 — 37.
Google Scholar

Miedaner T., Moldovan M., Ittu M. 2003. Comparison of spray and point inoculation to assess resistance to Fusarium head blight in multienvironment wheat trial. Phytopathology 93: 1068 — 1072.
Google Scholar

Miedaner T.,Reinbrecht C., Lauber U., Schollenberger M., Geiger H. H. 2001. Effects of genotype and genotype x environment interaction on deoxynivalenol accumulation and resistance to Fusarium head blight in rye, triticale, and wheat. Plant Breed. 120: 97 — 105.
Google Scholar

Ochodzki P., Góral T. 2006. Production of mycotoxins by selected Fusarium graminearum and F. culmorum isolates cultured on rice and wheat. In: Conference Papers of 28. Mykotoxin-Workshop; Bydgoszcz, Polska, 29-31 maja, 2006: 73.
Google Scholar

Oettler G., Wahle G. 2001. Genotypic and environmental variation of resistance to head blight in triticale inoculated with Fusarium culmorum. Plant Breeding 123: 297 — 300.
Google Scholar

Perkowski J., Buśko, M., Stuper, K., Kostecki M., Matysiak A., Szwajkowska-Michałek L. 2008. Concentration of ergosterol in small-grained naturally contaminated and inoculated cereals. Biologia 63 (4): 542 — 547.
Google Scholar

Perkowski J., Wiwart M., Busko M., Laskowska M., Berthiller F., Kandler W., Krska R. 2007. Fusarium toxins and total fungal biomass indicators in naturally contaminated wheat samples from north-eastern Poland in 2003. Food Additives and Contaminants 24: 1292 — 1298.
Google Scholar

Pirgozliev S. R., Edwards, S. G., Hare M. C., Jenkinson P. 2003. Strategies for the control of Fusarium head blight in cereals. Eur. J. Plant Pathol. 109: 731 — 742
Google Scholar

Randhawa H., Eudes F., Beres B., Graf R., Fedak G., Comeau A., Langevin F., Dion Y., Pozniak C. 2013. Integrated approaches for triticale breeding. Abstract Book of the 8th International Triticale Symposium, June 10th -14th 2013, Ghent, Belgium: 29.
Google Scholar

Siou D., Gélisse S., Laval V., Repinçay C., Canalès R., Suffert F., Lannou C. 2014. Effect of wheat spike infection timing on Fusarium head blight development and mycotoxin accumulation. Plant Pathol. 63: 390 — 399.
Google Scholar

Snijders C. H. D. 2004. Resistance in wheat to Fusarium infection and trichothecene formation. Toxicology Leters,153: 37 — 46.
Google Scholar

Snijders C. H. A., Perkowski J. 1990. Effects of head blight caused by Fusarium culmorum on toxin content and weight of wheat kernels. Phytopatholgy 80: 566 — 570.
Google Scholar

Veitch R. S., Caldwell C. D., Martin R. A., Lada R., Salmon D., Anderson, D. M., MacDonald D. 2008. Susceptibility of winter and spring triticale’s to Fusarium head blight and deoxynivalenol accumulation. Can. J. Plant Sci. 88: 783 — 788.
Google Scholar

Wiśniewska H., Góral T., Ochodzki P., Walentyn-Góral D., Kwiatek M., Majka M., Grzeszczak I., Beletr J., Banaszak Z., Pojmaj M., Kurleto D., Konieczny M., Budzianowski G., Cicha A., Paizert K., Woś H. 2014. Odporność rodów hodowlanych pszenżyta ozimego na fuzariozę kłosów. Biul. IHAR 271: 29 — 43.
Google Scholar

Wiśniewska H., Góral T., Ochodzki P., Walentyn-Góral D., Kwiatek M., Majka M., Belter J., Banaszak Z., Pojmaj M., Kurleto D., Konieczny M., Budzianowski G., Cicha A., Paizert K., Woś H. 2015. Odporność rodów hodowlanych pszenżyta ozimego na infekcję kłosa grzybem Fusarium culmorum. Biul. IHAR 276: 39 — 56.
Google Scholar

Wiśniewska H., Kowalczyk K. 2005. Resistance of cultivars and breeding lines of spring wheat to Fusarium culmorum and powdery mildew. J. Appl. Genet. 46: 35 — 40.
Google Scholar

Yuen G. Y., Schoneweis D.S. 2007. Strategies for managing Fusarium head blight and deoxynivalenol accumulation in wheat. Int. J. Food Microbiol. 119: 126 — 130.
Google Scholar


Published
2019-04-01

Cited by

Wiśniewska, H. (2019) “Evaluation of Fusarium head blight resistance types in winter triticale using phenotypic and metabolic markers”, Bulletin of Plant Breeding and Acclimatization Institute, (284), pp. 33–51. doi: 10.37317/biul-2018-0004.

Authors

Halina Wiśniewska 

Instytut Genetyki Roślin PAN Poland

Authors

Tomasz Góral 
t.goral@ihar.edu.pl
Instytut Hodowli i Aklimatyzacji Roślin - Państwowy Instytut Badawczy Poland
https://orcid.org/0000-0001-9130-6109

Authors

Piotr Ochodzki 

Instytut Hodowli i Aklimatyzacji Roślin - Państwowy Instytut Badawczy Poland
https://orcid.org/0000-0003-3228-0783

Authors

Dorota Walentyn-Góral 

Instytut Hodowli i aklimatyzacji Roślin - Państwowy Instytut Badawczy Poland

Authors

Michał Kwiatek 

Instytut Genetyki Roślin PAN Poland
https://orcid.org/0000-0001-9442-3124

Authors

Maciej Majka 

Instytut Genetyki Roślin PAN Poland
https://orcid.org/0000-0002-5039-9465

Authors

Jolanta Belter 

Instytut Genetyki Roślin PAN Poland
https://orcid.org/0000-0003-1934-448X

Authors

Zofia Banaszak 

Danko Hodowla Roślin Sp. z o.o. Poland

Authors

Mirosław Pojmaj 

Danko Hodowla Roślin Sp. z o.o. Poland

Authors

Danuta Kurleto 

Danko Hodowla Roślin Sp. z o.o. Poland

Authors

Marcin Konieczny 

Danko Hodowla Roślin Sp. z o.o. Poland

Authors

Grzegorz Budzianowski 

Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR Poland

Authors

Alicja Cicha 

Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR Poland

Authors

Kazimierz Paizert 

Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR Poland

Authors

Przemysław Matysik 

Hodowla Roślin Strzelce Sp. z o.o. Grupa IHAR Poland

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