TY - BK AU - Duraes,F.O.M. AU - Casela,C.R. AU - Friesen,D.K.|Palmer,A.F.E. AU - Gama,E.E.G. AU - Junior,A.L. AU - Magalhaes,P.C. AU - Marriel,I.E. AU - Oliveira,A.C. AU - Shanahan,J.F. ED - Centro Internacional de Mejoramiento de Maiz y Trigo (CIMMYT) Kenya ED - 7. Proceedings of the Eastern and Southern Africa Regional Maize Conference TI - The usefulness of chlorophyll fluorescence in screening for disease resistance, water stress tolerance, aluminium toxicity tolerance, and N use efficiency in maize SN - 970-648-120-6 U1 - 338.16 PY - 2002/// CY - Nairobi (Kenya) PB - KARI|CIMMYT KW - Aluminium KW - Chlorophylls KW - Disease resistance KW - AGROVOC KW - Fluorescence KW - Maize KW - Nitrogen content KW - Photosynthesis KW - Toxicity KW - Water KW - Yield factors KW - Zea mays KW - CIMMYT KW - KARI N2 - Plant breeders need to know which traits are the most highly associated with grain yield in order to concentrate breeding efforts. Plant production. driven by photosynthesis. is sensitive to abiotic (environmental)and biotic (diseases) stresses. Among all photosynthetic functions, Photosystem II (PSII) is believed to be the most stress sensitive. The in vivo chlorophyll fluorescence (CF) technique is a powerful nondestructive and fast method to detect changes in the photosynthetic activity in leaves int1uenced by changes in the environment or by natural and anthropogenic stress. The ratio Fv/Fm has been shown to be a reliable indicator of stress. We compared CF assessments and conventional approaches, for constraints such as drought stress, N deficiency and aluminum toxicity which have induced damage to the PSII apparatus, and these changes have permitted us to distinguish genotypes tolerant and sensitive for each mentioned stress. Also, the CF parameters have indicated that maize inbred lines L4, L1, and L2 were resistant and line L3 was susceptible to the two southern rust pathogen (Puccinia polysora) isolates. Finally, the results found in this study have shown that in vivo CF measurements can be a useful tool to help in the screening of maize germplasm for abiotic and biotic stress tolerance ER -