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GROWTH AND BIOMASS PARTITIONING OF MAIZE DURING VEGETATIVE GROWTH IN RESPONSE TO STRIGA HERMONTHICA INFECTION AND NITROGEN SUPPLY

Published online by Cambridge University Press:  19 June 2002

G. K. S. Aflakpui
Affiliation:
Department of Soil Science, The University of Reading, P.O. Box 233, Whiteknights, Reading, RG6 6DW Current address: Crops Research Institute (Council for Scientific and Industrial Research), P.O. Box 3785, Kumasi, Ghana.
P. J. Gregory
Affiliation:
Department of Soil Science, The University of Reading, P.O. Box 233, Whiteknights, Reading, RG6 6DW
R. J. Froud-Williams
Affiliation:
Department of Agricultural Botany, The University of Reading, 2 Earley Gate, Reading, RG6 6AU

Abstract

The effect of the root hemiparasitic angiosperm Striga hermonthica on the gowth, photosynthesis and partitioning of biomass in maize was studied in glasshouse experiments in two seasons. In both seasons, nitrogen was applied to the plants at rates equivalent to 20, 60 and 120 kg ha−1. There was no significant Striga×nitrogen interaction on the responses measured. Averaged across all nitrogen treatments, maize plants infected with S. hermonthica had smaller leaf areas and accumulated less biomass, than did uninfected plants. The leaf area of infected and uninfected plants increased asymptotically from emergence to the final harvest (about the 18-leaf stage) at which time the leaf area of infected plants was 63% that of uninfected plants. The rates of photosynthesis of the youngest, fully expanded leaves of infected plants, averaged across N treatments, were significantly lower than for uninfected plants. However, stomatal conductance and the sub-stomatal CO2 concentration were unaffected by Striga infection. Although infection with Striga significantly reduced shoot biomass (dry weight at final harvest was 37% that of uninfected plants in 1995 and 63% in 1996), there were no significant effects of Striga infection on root biomass so that the infected plants partitioned a significantly greater proportion of their total biomass to roots compared with the uninfected plants. The allometric coefficients, though, were similar for both infected and uninfected plants. Averaged across infected and uninfected plants, application of nitrogen increased total leaf area per plant and root and shoot biomass but did not change the proportion of total biomass partitioned to roots. These results did not show a major effect of nitrogen on the relative growth response of maize to infection with Striga.

Type
Research Article
Copyright
© 2002 Cambridge University Press

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