Selectable traits to increase crop photosynthesis and yield of grain crops

doi:10.1093/jexbot/51.suppl_1.447

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Journal of Experimental Botany, Vol. 51, No. 90001, pp. 447-458, February 2000
© 2000 Oxford University Press

Selectable traits to increase crop photosynthesis and yield of grain crops

R.A. Richards¹

CSIRO Plant Industry, PO Box 1600, Canberra, ACT 2601, Australia

The grain yield of cereals has almost doubled this century asa result of genetic manipulation by plant breeding. Surprisingly,there has been no change in the rate of photosynthesis per unitleaf area to accompany these increases. However, total photosynthesishas increased as a result of an increase in leaf area, dailyduration of photosynthesis or leaf area duration. There remainsubstantial opportunities to continue to improve total photosynthesisand crop yield genetically using conventional breeding practices.Selectable traits are discussed here in the context of increasingtotal above-ground biomass under favourable conditions. Opportunitiesexist to alter crop duration and the timing of crop developmentto match it better to radiation, temperature and vapour pressureduring crop growth, and to increase the rate of developmentof early leaf area to achieve rapid canopy closure. The importanceof these traits will depend on the environment in which thecrop is grown. Increases in crop photosynthesis through breedingare also likely to come via indirect means. Selection for ahigh and sustained stomatal conductance during the period ofstem elongation is one way. Increasing assimilate allocationto the reproductive primordia so as to establish a large potentialsink should also indirectly increase total crop photosynthesis.Evidence in the major grain crops suggests that by anthesisthe capacity for photosynthesis is high and that photosynthesisis not limiting during grain filling. To use this surplus capacityit is suggested that carbon and nitrogen partitioning to thereproductive meristem be increased so as to establish a highpotential grain number and the potential for a large grain size.It is then expected that additional photosynthesis will follow,either by a longer daily duration of photosynthesis or by anextended leaf area duration.

Key words: Genetic manipulation, cereals, yield, photosynthesis, selectable traits.

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