TY - PRO AU - Klechkovskaya,H.A. AU - Adamovskaya,V.G. AU - Dubin,H.J.|Gilchrist,L.|Reeves,J.|McNab,A. AU - Ignatova,S.A. AU - Karpuk,Y.N. AU - Khokhlov,A.N. AU - Litvinenko,N.A. AU - Makhnovskaya,M.L. AU - Wolf,G.A. ED - Centro Internacional de Mejoramiento de Maiz y Trigo (CIMMYT), Mexico DF (Mexico) TI - Control of fusarium scab: Biochemical, genetic, and ecological mechanisms SN - 968-6923-94-2 U1 - 632.4 PY - 1997/// CY - Mexico, DF (Mexico) PB - CIMMYT KW - Climatic factors KW - Disease control KW - Fusarium KW - Genetic variation KW - AGROVOC KW - Pathogens KW - Plant diseases KW - Triticum KW - Plant breeding KW - CIMMYT N2 - The Fusarium spp. population is not homogeneous in southwestern Ukraine. Fungi with high pathogenicity account for 20% of the population. Pathogenic strains of Fusarium spp. show mainly high levels of xylanase activity. It was observed that high general hydrolase activity in an infected plant correlates with resistance to Fusarium infection. Resistant wheat varieties were also characterized by an abundance of fructose at sites of pathogen penetration. It was observed that resistant plants infected by Fusarium spp. actually neutralize the high proteolytic activity of the parasite by increasing their trypsin inhibitor content. Methods of transgressive and intravarietal selection of resistant wheat varieties were most productive. Intravarietal composition played the key role in variety resistance and tolerance. The susceptible:resistant:mycotrophic lines ratio of the resistant variety corresponds to the high- pathogenic:middle-pathogenic:nonpathogenic strains ratio of the Fusarium spp. population in the cultivated region. Only varieties that include lines with the whole possible spectrum of reactions to contrasting Fusarium strains can provide agrocenosis stability ER -