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Food Additives & Contaminants: Part A Volume 32, 2015 - Issue 6
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Original Articles

Colonisation of winter wheat grain by Fusarium spp. and mycotoxin content as dependent on a wheat variety, crop rotation, a crop management system and weather conditions

Janusz CzabanDepartment of Agricultural Microbiology, Institute of Soil Science and Plant Cultivation – State Research Institute, Puławy, PolandCorrespondence[email protected]
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,
Barbara WróblewskaDepartment of Agricultural Microbiology, Institute of Soil Science and Plant Cultivation – State Research Institute, Puławy, PolandView further author information
,
Alicja SułekDepartment of Cereal Crop Production, Institute of Soil Science and Plant Cultivation – State Research Institute, Puławy, PolandView further author information
,
Marzena MikosDepartment of Cereal Crop Production, Institute of Soil Science and Plant Cultivation – State Research Institute, Puławy, PolandView further author information
,
Edyta BoguszewskaDepartment of Cereal Crop Production, Institute of Soil Science and Plant Cultivation – State Research Institute, Puławy, PolandView further author information
,
Grażyna PodolskaDepartment of Cereal Crop Production, Institute of Soil Science and Plant Cultivation – State Research Institute, Puławy, PolandView further author information
&
Anna NieróbcaDepartment of Agrometeorology and Applied Informatics, Institute of Soil Science and Plant Cultivation – State Research Institute, Puławy, PolandView further author information
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Pages 874-910 | Received 04 Sep 2014, Accepted 12 Feb 2015, Published online: 23 Mar 2015

References

  • Ahmed HU, Gilbert J, Fernando WGD, Brûlé-Babel A, Schoofs A, Entz M. 2002. Influence of crop rotation and cover crop on fusarium head blight of wheat. In: National Fusarium Head Blight Forum Proceedings [Internet]; Dec 7–9. Erlanger (KY): Holiday Inn Cincinnati-Airport; p. 128–131. Available from: http://scabusa.org/pdfs/forum_02_proc_edm.pdf
  • Andries C, Jarosz A, Trail F. 2000. Effects of rainfall and temperature on production of perithecia by Gibberella zeae in field debris in Michigan. In: National Fusarium Head Blight Forum [Internet]; Dec 10–12. Erlanger (KY): Holiday Inn Cincinnati-Airport; p. 118–122. Available from: http://scabusa.org/pdfs/forum_00_proc.pdf
  • Assabgui RA, Reid LM, Hamilton RI, Arnason JT. 1993. Correlation of kernel (E)-ferulic acid content of maize with resistance to Fusarium graminearum. Phytopathology. 83:949–953.
  • Audenaert K, Van Broeck R, Bekaert B, De Witte F, Heremans B, Messens K, Höfte M, Haesaert G. 2009. Fusarium head blight (FHB) in Flanders: population diversity, inter-species associations and DON contamination in commercial winter wheat varieties. Eur J Plant Pathol. 125:445–458.
  • Bateman GL, Coşkun H. 1995. Populations of Fusarium spp. in soil growing continuous winter wheat, and effects of long-term application of fertilizers and of straw incorporation. Mycol Res. 99:1391–1394.
  • Bateman GL, Murray G, Gutteridge RJ, Coşkun H. 1998. Effects of method of straw disposal and depth of cultivation on populations of Fusarium spp. in soil and on brown foot rot in continuous winter wheat. Ann Appl Biol. 132:35–47.
  • Baturo A, Łukanowski A, Kuś J. 2004. Comparison of health status of winter wheat and spring barley grain cultivated in organic, integrated and conventional systems and monoculture. In: Lammerts van Bueren E, Ranganathan R, Sorensen N, editors. Proceedings of the First World Conference on Organic Seed ‘Challenges and Opportunities for Organic Agriculture and the Seed Industry’; July 5–7. Rome: FAO Headquarters; p. 128–132.
  • Bennett JW, Klich M. 2003. Mycotoxins. Clin Microbiol Rev. 16:497–516.
  • Bernhoft A, Clasen P-E, Kristoffersen AB, Torp M. 2010. Less Fusarium infestation and mycotoxin contamination in organic than in conventional cereals. Food Addit Contam A. 29:1129–1140.
  • Bernhoft A, Torp M, Clasen P-E, Løes A-K, Kristoffersen AB. 2012. Influence of agronomic and climatic factors on Fusarium infestation and mycotoxin contamination of cereals in Norway. Food Addit Contam A. 29:1129–1140.
  • Birzele B, Meier A, Hindorf H, Krämer J, Dehne H-W. 2002. Epidemiology of Fusarium infection and deoxynivalenol content in winter wheat in the Rhineland, Germany. Eur J Plant Pathol. 108:667–673.
  • Bottalico A, Perrone G. 2002. Toxigenic Fusarium species and mycotoxins associated with head blight in small-grain cereals in Europe. Eur J Plant Pathol. 108:611–624.
  • Buerstmayr H, Steiner B, Lemmens M, Ruckenbauer P. 2000. Resistance to Fusarium head blight in winter wheat: heritability and trait associations. Crop Sci. 40:1012–1018.
  • Champeil A, Doré T, Fourbet JF. 2004. Fusarium head blight: epidemiological origin of the effects of cultural practices on head blight attacks and the production of mycotoxins by Fusarium in wheat grains. Plant Sci. 166:1389–1415.
  • Champeil A, Fourbet JF, Doré T, Rossignol L. 2004. Influence of cropping system on Fusarium head blight and mycotoxin levels in winter wheat. Crop Prot. 23:531–537.
  • Choo TM, Vigier B, Shen QQ, Martin RA, Ho KM, Savard M. 2004. Barley traits associated with resistance to Fusarium head blight and deoxynivalenol accumulation. Phytopathology. 94:1145–1150.
  • Colbach N, Maurin N, Huet P. 1996. Influence of cropping system on foot rot of winter wheat in France. Crop Prot. 15:295–305.
  • Cromey MG, Parkes RA, Sinclair KI, Lauren DR, Butler RC. 2002. Effects of fungicides applied at anthesis on Fusarium head blight and mycotoxins in wheat. New Zealand Plant Protect. 55:341–346.
  • Czaban J, Sułek A, Pecio Ł, Żuchowski J, Podolska G. 2013. Effect of genotype and crop management systems on phenolic acid content in winter wheat grain. J Food Agric Environ. 11:1201–1206.
  • De Wolf ED, Madden LV, Lipps PE. 2003. Risk assessment models for wheat Fusarium head blight epidemics based on within-season weather data. Phytopathology. 93:428–435.
  • Deadman ML, Cooke BM. 1997. Wheat disease and cereal-clover bicrops manage. Focus. 2:15–19.
  • Doohan FM, Brennan J, Cooke BM. 2003. Influence of climatic factors on Fusarium species pathogenic to cereals. Eur J Plant Pathol. 109:755–768.
  • Edwards SG. 2004. Influence of agricultural practices on Fusarium infection of cereals and subsequent contamination of grain by trichothecene mycotoxins. Toxicol Lett. 153:29–35.
  • Edwards SG, Imathiu SM, Ray RV, Back M, Hare MC. 2012. Molecular studies to identify the Fusarium species responsible for HT-2 and T-2 mycotoxins in UK oats. Int J Food Microbiol. 156:168–175.
  • Edwards SG, Pirgozliev SR, Hare MC, Jenkinson P. 2001. Quantification of trichothecene-producing Fusarium species in harvested grain by competitive PCR to determine efficacies of fungicides against Fusarium head blight of winter wheat. Appl Environ Microbiol. 67:1575–1580.
  • Fauzi MT, Paulitz TC. 1994. The effect of plant growth regulators and nitrogen on Fusarium head blight of the spring wheat cultivar max. Plant Dis. 78:289–292.
  • Fernandez MR, Basnyat P, Zentner RP. 2007. Response of wheat root pathogens to crop management in eastern Saskatchewan. Can J Plant Sci. 87:953–963.
  • Fernandez MR, Huber D, Basnyat P, Zentner RP. 2008. Impact of agronomic practices on populations of Fusarium and other fungi in cereal and noncereal crop residues on the Canadian Prairies. Soil Till Res. 100:60–71.
  • Fernandez MR, Zentner RP, DePauw RM, Gehl D, Stevenson FC. 2007a. Impacts of crop production factors on Fusarium head blight in barley in eastern Saskatchewan, Canada. Crop Sci. 47:1574–1584.
  • Fernandez MR, Zentner RP, DePauw RM, Gehl D, Stevenson FC. 2007b. Impacts of crop production factors on common root rot of barley and associated fungi in eastern Saskatchewan, Canada. Crop Sci. 47:1585–1595.
  • Franz E, Boois K, van der Fels-Klerx I. 2009. Prediction of deoxynivalenol content in Dutch winter wheat. J Food Prot. 72:2170–2177.
  • Fredlund E, Gidlund A, Olsen M, Börjesson T, Spliid NHH, Simonsson M. 2008. Method evaluation of Fusarium DNA extraction from mycelia and wheat for down-stream real-time PCR quantification and correlation to mycotoxin levels. J Microbiol Meth. 73:33–40.
  • Fredlund E, Gidlund A, Sulyok M, Börjesson T, Krska R, Olsen M, Lindblad M. 2013. Deoxynivalenol and other selected Fusarium toxins in Swedish oats – Occurrence and correlation to specific Fusarium species. Int J Food Microbiol. 167:276–283.
  • Gaurilčikienė I, Butkutė B, Mankevičienė A, Paplauskienė V. 2010. A multi-aspect comparative investigation on the use of strobilurin and triazole – based fungicides for winter wheat disease control. In: Carisse O, editor. Fungicides [Internet]. Rijeka: InTech open; 69–94. [cited 2015 Mar 12]. Available from: http://cdn.intechweb.org/pdfs/12382.pdf
  • Gaurilčikienė I, Mankevičienė A, Supronienė S. 2011. The effect of fungicides on rye and triticale grain contamination with Fusarium fungi and mycotoxins. Žemdirbystė=Agriculture. 98:19–26.
  • Gilbert J, Fernando WGD. 2004. Epidemiology and biological control of Gibberella zeae/Fusarium graminearum. Can J Plant Pathol. 26:464–472.
  • González HHL, Martinez EJ, Pacin A, Resnik SL. 1999. Relationship between Fusarium graminearum and Alternaria alternata contamination and deoxynivalenol occurrence on Argentinian durum wheat. Mycopathologia. 144:97–102.
  • Henriksen B, Elen O. 2005. Natural Fusarium grain infection level in wheat, barley and oat after early application of fungicides and herbicides. J Phytopathol. 153:214–220.
  • Hilton AJ, Jenkinson P, Hollins TW, Parry DW. 1999. Relationship between cultivar height and severity of Fusarium ear blight in wheat. Plant Pathol. 48:202–208.
  • Hooker DC, Schaafsma AW, Tamburic-Ilincic L. 2002. Using weather variables pre- and post-heading to predict deoxynivalenol content in winter wheat. Plant Dis. 86:611–619.
  • Hýsek J, Váňová M, Hajšlová J, Brožová J, Sychrová E, Radová-Sypecká Z, Šíp V, Sýkorová S, Chrpová J, Tvarůžek L. 2005. Variation in the production of trichothecene mycotoxin deoxynivalenol (DON) in spring barley varieties after treatment with the fungicides azoxystrobin and tebuconazole. Plant Protect Sci. 41:58–62.
  • Imathiu SM, Ray RV, Back MI, Hare MC, Edwards SG. 2013. A survey investigating the infection of Fusarium langsethiae and production of HT-2 and T-2 mycotoxins in UK oat fields. J Phytopathol. 161:553–561.
  • Inch SA, Gilbert J. 2003. Survival of Gibberella zeae in Fusarium-damaged wheat kernels. Plant Dis. 87:282–287.
  • Klepacka J, Fornal Ł. 2006. Ferulic acid and its position among the phenolic compounds of wheat. Crit Rev Food Sci Nutr. 46:639–647.
  • Kosiak B, Torp M, Skjerve E, Thrane U. 2003. The prevalence and distribution of Fusarium species in Norwegian cereals: a survey. Acta Agric Scand, Sect B, Soil Plant Sci. 53:168–176.
  • Krasowicz S. 2007. Poziom plonu jako czynnik kształtujący opłacalność produkcji ziarna zbóż [The yield level as a factor rulling the profitability of cereal grain production] [Internet]. Studia i Raporty IUNG – PIB. 9:111–120. Polish. [cited 2015 Mar 12]. Available from: http://sybilla.iung.pulawy.pl/wydawnictwa/Pliki/pdfPIB/zesz9.pdf
  • Kriss AB, Paul PA, Xu X, Nicholson P, Doohan FM, Hornok L, Rietini A, Edwards SG, Madden LV. 2012. Quantification of the relationship between the environment and Fusarium head blight, Fusarium pathogen density, and mycotoxins in winter wheat in Europe. Eur J Plant Pathol. 133:975–993.
  • Kuś J (Co-ordinator of the Studies): Badania nad doborem odmian oraz doskonaleniem agrotechniki zbóż i roślin pastewnych w rolnictwie ekologicznym [Studies on Varieties Selection and Agricultural Practices Improvement of Cereals and Fodder Crops] [Internet]. 2008: nr RR-re-401- 332/08(260); 2009: Nr RR-re-40-332/08(260); 2010: Nr RRre – 029-25-3038/10. Institute of Soil Science and Plant Cultivation in Puławy, Poland. Polish. [cited 2015 Mar 12]. Available from: http://sybilla.iung.pulawy.pl/Aktualnosci/pdfy/Prowadzenie%20badan%20w%20uprawach%20polowych%20metody%20ekologiczne.pdf; http://sybilla.iung.pulawy.pl/Aktualnosci/pdfy/Dobor_odmian_ekologia.pdf; http://www.iung.pulawy.pl/images/pdf/Raport%20HOre%20końcowy.pdf
  • Kuś J, Jończyk K, Kawalec A. 2007. Czynniki ograniczające plonowanie pszenicy ozimej w różnych systemach gospodarowania [Factors limiting the yields of winter wheat in different crop production systems]. Acta Agrophys. 10:407–417.
  • Kwaśna H, Chełkowski J, Zajkowski P. 1991. Grzyby. [Fungi]Tom XXII. Warszawa-Kraków, Poland: Polska Akademia Nauk; p. 152 p.
  • Landschoot S, Waegeman W, Audenaert K, Vandepitte J, Baetens JM, De Baets B, Haesaert G. 2012. An empirical analysis of explanatory variables affecting Fusarium head blight infection and deoxynivalenol content in wheat. J Plant Pathol. 94:135–147.
  • Lemmens M, Haim K, Lew H, Ruckenbauer P. 2004. The effect of nitrogen fertilization on Fusarium head blight development and deoxynivalenol contamination in wheat. J Phytopathol. 152:1–8.
  • Lenc L, Wyczling D, Sadowski C. 2009. Zasiedlenie ziarna pszenicy ozimej przez grzyby rodzaju Fusarium w zależności od przedplonu, uprawianej odmiany i stosowanych fungicydów [Colonisation of winter wheat kernels by fungi from genus Fusarium as dependent on the forecrop, cultivar and fungicide application]. Ochrona Środowiska i Zasobów Naturalnych. 41:563–571.
  • Leslie JF, Summerell BA. 2006. The Fusarium Laboratory Manual. Ames (IA): Blackwell Publishing; 388 p.
  • Liggitt J, Jenkinson P, Parry DW. 1997. The role of saprophytic microflora in the development of Fusarium ear blight of winter wheat caused by Fusarium culmorum. Crop Protect. 16:679–685.
  • Lindblad M, Gidlund A, Sulyok M, Börjesson T, Krska R, Olsen M, Fredlund E. 2013. Deoxynivalenol and other selected Fusarium toxins in Swedish wheat – Occurrence and correlation to specific Fusarium species. Int J Food Microbiol. 167:284–291.
  • Lori GA, Sisterna MN, Sarandón SJ, Rizzo I, Chidichimo H. 2009. Fusarium head blight in wheat: Impact of tillage and other agronomic practices under natural infection. Crop Prot. 28:495–502.
  • Łukanowski A, Sadowski C. 2005. Wykorzystanie metody PCR do badania jakości ziarna pszenicy ozimej uprawianej w systemach ekologicznym, integrowanym, konwencjonalnym oraz monokulturze w aspekcie fitopatologicznym [The use of PCR assay for quality testing of grain of winter wheat cultivated in organic, integrated, conventional system and monoculture in phytopathological aspect]. Acta Agrobot. 58:55–70.
  • Łukanowski A, Sadowski C. 2008. Settlement of spring wheat kernels by Fusarium spp. in organic system as compared with other cropping systems. 3rd Int. FHB Symposium. Szeged, Hungary, Cereal Research Communications. 36 (Suppl. B): 581–583.
  • Magan N, Hope R, Colleate A, Baxter ES. 2002. Relationship between growth and mycotoxin production by Fusarium species, biocides and environment. Europ J Plant Pathol. 108:685–690.
  • Majchrzak B, Chodorowski B, Okorski A. 2005. Choroby podstawy źdźbła pszenicy ozimej uprawianej po roślinach przedplonowych z rodziny Brassicaceae [Stem base diseases of winter wheat grown after forecrops of the family Brassicaceae]. Acta Agrobot. 58:307–318. Polish.
  • Małuszyńska E. 2005. Stabilność zabarwienia ziarna i pochewki liściowej pszenżyta ozimego w kolejnych latach rozmnożeń [Stability of grain and coleoptile colour in winter triticale in the successive years of propagation]. Biul IHAR. 235:209–217.
  • Mankevičienė A, Gaurilčikienė I, Supronienė S. 2008. The infestation of winter rye and triticale grain with Fusarium fungi as affected by fungicide use. 3rd Int. FHB Symposium Szeged, Hungary. Cereal Res Communic. 36 (Suppl. B):683–687.
  • Manstretta V, Gourdain E, Rossi V. 2013. Dynamic of production and maturation of Gibberella zeae perithecia on crop debris. In: Fusarium: Mycotoxins, Taxonomy, Genomics, Biosynthesis, Pathogenicity, Resistance, Disease Control. 12th European Fusarium Seminar, Palais de la Bourse, Bordeaux, France [Internet]. p. 51. [cited 2015 Mar 12]. Available from: https://colloque6.inra.fr/efs2013/Media/Fichier/EFS12-Book-of-abstracts/
  • Martin RA, MacLeod JA, Caldwell C. 1991. Influences of production inputs on incidence of infection by Fusarium species on cereal seed. Plant Dis. 75:784–788.
  • McKeehen JD, Busch RH, Fulcher RG. 1999. Evaluation of wheat (Triticum aestivum L.) phenolic acids during grain development and their contribution to Fusarium resistance. J Agric Food Chem. 47:1476–1482.
  • Mesterházy A. 1995. Types and components of resistance to Fusarium head blight of wheat. Plant Breed. 114:377–386.
  • Mikos-Szymańska M, Podolska G. 2013. Contamination with Fusarium mycotoxins in triticale depends on agrotechnical factors and cultivar. J Food Agricult Environ. 11:1528–1531.
  • Mohammadi M, Kazemi H. 2002. Changes in peroxidase and polyphenol oxidase activities in susceptible and resistant wheat heads inoculated with Fusarium graminearum and induced resistance. Plant Sci. 162:491–498.
  • Müllenborn C, Steiner U, Ludwig M, Oerke E-C. 2008. Effect of fungicides on the complex of Fusarium species and saprophytic fungi colonizing wheat kernels. Eur J Plant Pathol. 120:157–166.
  • Muthomi JW, Riungu GM, Ndung’u JK, Narla RD. 2007. Occurrence of wheat head blight and Fusarium species infecting wheat. African Crop Sci Conference Proc. 8:863–867.
  • Nakajima T, Yoshida M, Tomimura K. 2008. Effect of lodging on the mycotoxin contamination in cereals infected with the Fusarium graminearum species complex. 3rd Int. FHB Symposium Szeged, Hungary. Cereal Res Commun. 36 (Suppl. B): 587–588.
  • Nawracała J, Perkowski J, Kurasiak-Popowska D, Stuper-Szablewska K. 2011, 2012, 2013. Ustalenie zależności występowania kwasu ferulowego w ziarnie a odpornością na choroby grzybowe pszenicy [The determination of the relationship between the content of ferulic acid in wheat grain and the resistance of the plant to fungal sicknesses] [Internet]. Uniwersytet Przyrodniczy w Poznaniu, Wydział Rolnictwa i Bioinżynierii, Katedra Genetyki i Hodowli Roślin. Polish. [cited 2015 Mar 12]. Available from: http://bip.puls.edu.pl/?q=content/dotacje-ministra-rolnictwa
  • Oktaba W. 1966. Elementy statystyki matematycznej i metodyka doświadczalnictwa [Elements of mathematical statistics and methodology of experimentation]. PWN Warszawa, pp 144 and 287 [in Polish].
  • Parikka P, Hakala K, Tiilikkala K. 2012. Expected shifts in Fusarium species’ composition on cereal grain in Northern Europe due to climatic change. Food Addit Contam A. 29:1543–1555.
  • Parry DW, Jenkinson P, McLeod L. 1995. Fusarium ear blight (scab) in small grain cereals – a review. Plant Pathol. 44:207–238.
  • Pirgozliev SR, Edwards SG, Hare MC, Jenkinson P. 2003. Strategies for the control of Fusarium head blight in cereals. Eur J Plant Pathol. 109:731–742.
  • Podolska G, Sułek A. 2012. Effect of cultivation intensity on grain yield and yield components of winter wheat cultivars. Pol J Agron. 11:41–46.
  • Ransom JK, McMullen MV. 2008. Yield and disease control on hard winter wheat cultivars with foliar fungicides. Agron J. 100:1130–1137.
  • Sadowski C, Lenc L, Kuś J. 2010. Fuzarioza kłosów i grzyby rodzaju Fusarium zasiedlające ziarno pszenicy ozimej, mieszaniny odmian i pszenicy orkisz uprawianych w systemie ekologicznym [Fusarium head blight and Fusarium spp. on grain of winter wheat, a mixture of cultivars and spelt grown in organic system]. J Res Appl Agricult Engin. 55:79–83.
  • Sadowski C, Lenc L, Wyczling D. 2011. Effect of the forecrop and fungicidal protection on the occurrence of Fusarium head blight (Fusarium spp.). J Plant Prot Res. 51:44–49.
  • Salas B, Dill-Macky R. 2005a. Colonisation of wheat cultivars by Fusarium graminearum at harvest and in overwintered residues. In: Canty SM, Boring T, Wardwell J, Siler L, Ward RW, editors. Proceedings of the 2005 National Fusarium Head Blight Forum; Dec 11–13; Milwaukee (WI). Okemos (MI): Office Max Print and Document Services; p. 140–143.
  • Salas B, Dill-Macky R. 2005b. Effect of residue management and host resistance on the epidemiology of Fusarium head blight. In: Canty SM, Boring T, Wardwell J, Siler L, Ward RW, editors. Proceedings of the 2005 National Fusarium Head Blight Forum; Dec 11–13; Milwaukee (WI). Okemos (MI): Office Max Print and Document Services; p. 144–147.
  • Samson RA, Hocking AD, Pitt JI, King AD. 1992. Modern methods in food mycology. Amsterdam: Elsevier. Appendix – Media; p. 371–375.
  • Schaafsma AW, Paul D, Phibbs T, Tamburic-Ilincic L. 2002. Control of Fusarium head blight in winter wheat with fungicides in artificially inoculated plots. Research Reports [Internet]. Ridgetown: Ridgetown College, University of Guelph; [cited 2014 Sep 24]. Available from: http://www.ridgetownc.uoguelph.ca/research/research_reports_topic.cfm?ref=WINTER_WHEAT
  • Schmidt H, Adler A, Holst-Jensen A, Klemsdal SS, Logrieco A, Mach RL, Nirenberg HI, Thrane U, Torp M, Vogel RF, et al. 2004. An integrated taxonomic study of Fusarium langsethiae, Fusarium poae and Fusarium sporotrichioides based on the use of composite datasets. Int J Food Microbiol. 95:341–349.
  • Semaškienė R, Mankevičienė A, Dabkevičius Z, Supronienė S. 2006. Effect of fungicides on Fusarium infection and production of deoxynivalenol in spring cereals. Agron Res. 4:363–366. Special issue.
  • Sikora H, Banachowska J, Doleżych D. 2007. Badania nad ochroną pszenicy ozimej przed fuzariozą kłosow wywołaną przez Fusarium culmorum w warunkach sztucznej infekcji [Studies on chemical protection of winter wheat against Fusarium head blight caused by Fusarium culmorum in conditions of artificial infection]. Progr Plant Protect/Post Ochr Rośl. 47:314–318.
  • Simpson DR, Weston GE, Turner JA, Jennings P, Nicholson P. 2001. Differential control of head blight pathogens of wheat by fungicides and consequences for mycotoxin contamination of grain. Europ J Plant Pathol. 107:421–431.
  • Smagacz J, Sowiński M. 2005. Porażenie przez patogeny podstawy źdźbła i plonowanie odmian pszenicy ozimej w zależności od częstotliwości przyorywania słomy [Incidence of stem-base diseases and yielding of winter wheat varieties depending on a frequency of ploughing the straw]. Biul IHAR. 235:105–113. Polish.
  • Subedi KD, Ma BL, Xue AG. 2007. Planting date and nitrogen effects on Fusarium head blight and leaf spotting diseases in spring wheat. Agron J. 99:113–121.
  • Summerel BA, Burgess LW, Klein TA. 1989. The impact of stubble management practices on the incidence of crown rot of wheat. Aust J Exp Agric. 29:91–98.
  • Summerel BA, Burgess LW, Klein TA, Pattison AB. 1990. Stubble management and the site of penetration of wheat by Fusarium graminearum group 1. Phytopathology. 80:877–879.
  • Suproniene S, Justesen AF, Nicolaisen M, Mankeviciene A, Dabkevicius Z, Semaskiene R, Leistrumaite A. 2010. Distribution of trichothecene and zearalenone producing Fusarium species in grain of different cereal species and cultivars grown under organic farming conditions in Lithuania. Ann Agric Environ Med. 17:79–86.
  • Supronienė S, Mankevičienė A, Kadžienė G, Kačergius A, Feiza V, Feizienė D, Semaškienė R, Dabkevičius Z, Tamošiūnas K. 2012. The impact of tillage and fertilization on Fusarium infection and mycotoxin production in wheat grains. Žemdirbystė=Agriculture. 99:265–272.
  • Teich AH. 1989. Epidemiology of wheat (Triticum aestivum L.) scab caused by Fusarium spp. In: Chelkowski J, editor. Fusarium: Mycotoxins, Taxonomy and Pathogenity, Vol. 2. Amsterdam: Elsevier; p. 269–282.
  • Turner JA, Jennings P. 1997. The effect of increasing humidity on Fusarium ear blight and grain quality. Cereal Res Commun. 25:825–826.
  • van Arendonk JJCM, Niemann GJ, Boon JJ, Lambers H. 1997. Effects of nitrogen supply on the anatomy and chemical composition of leaves of four grass species belonging to the genus Poa, as determined by image-processing analysis and pyrolysis-mass spectrometry. Plant Cell Environ. 20:881–897.
  • Váňová M, Klem K, Matušinsky P, Trnka M. 2009. Prediction model for deoxynivalenol in wheat grain based on weather conditions. Plant Protect Sci. 45:S33–S37.
  • Váňová M, Klem K, Míša P, Matušinsky P, Hajšlová J, Lancová K. 2008. The content of Fusarium mycotoxins, grain yield and quality of winter wheat cultivars under organic and conventional cropping systems. Plant Soil Environ. 54:395–402.
  • Walter S, Nicholson P, Doohan FM. 2010. Action and reaction of host and pathogen during Fusarium head blight disease. New Phytologist. 185:54–66.
  • Wyczling D, Lenc L. 2010. Effect of forecrop and differentiated fungicidal protection on health of winter wheat stem base. Phytopathologia. 57:21–29.
  • Xu X. 2003. Effects of environmental conditions on the development of Fusarium ear blight. Eur J Plant Pathol. 109:683–689.
  • Xu X, Nicholson P, Thomsett MA, Ritieni A. 2007. Effects of fungal interactions among Fusarium head blight pathogens on disease development and mycotoxin accumulation. Int J Food Microbiol. 119:67–71.
  • Xu X-M, Monger W, Ritieni A, Nicholson P. 2007. Effect of temperature and duration of wetness during initial infection periods on disease development, fungal biomass and mycotoxin concentrations on wheat inoculated with single, or combinations of, Fusarium species. Plant Pathol. 56:943–956.
  • Xu X-M, Nicholson P, Thomsett MA, Simpson D, Cooke BM, Doohan FM, Brennan J, Monaghan S, Moretti A, Mule G, et al. 2008. Relationship between the fungal complex causing Fusarium head blight of wheat and environmental conditions. Phytopathology. 98:69–78.
  • Xu X-M, Parry DW, Nicholson P, Thomsett MA, Simpson D, Edwards SG, Cooke BM, Doohan FM, Brennan JM, Moretti A, et al. 2005. Predominance and association of pathogenic fungi causing Fusarium ear blight in wheat in four European countries. Eur J Plant Pathol. 112:143–154.
  • Yang F, Jensen JD, Spliid NH, Svensson B, Jacobsen S, Jørgensen LN, Jørgensen HJL, Collinge DB, Finnie C. 2010. Investigation of the effect of nitrogen on severity of Fusarium Head Blight in barley. J Proteom. 73:743–752.
  • Yoshida M, Kawada N, Tohnooka T. 2005. Effect of row type, flowering type and several other spike characters on resistance to Fusarium head blight in barley. Euphytica. 141:217–227.
  • Yoshida M, Nakajima T, Tonooka T. 2008. Influence of nitrogen application at anthesis on Fusarium head blight and mycotoxin accumulation in bread-making wheat in Japan. 3rd Int. FHB Symposium Szeged, Hungary, Cereal Res Commun. 36 (Suppl. B):599–600.
  • Zadoks JC, Chang TT, Konzak CF. 1974. A decimal code for the growth stages of cereals. Weed Res. 14:415–421.
  • Zhang YJ, Fan PS, Zhang X, Chen CJ, Zhou MG. 2009. Quantification of Fusarium graminearum in harvested grain by real-time polymerase chain reaction to assess efficacies of fungicides on Fusarium head blight, deoxynivalenol contamination, and yield of winter wheat. Phytopathology. 99:95–100.

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