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Annals of Botany 78: 479-488, 1996
© 1996 Annals of Botany Company

Transport of Recently Assimilated¹⁵N Nitrogen to Individual Spikelets in Spring Wheat Grown in Culture Solution

PETTER OSCARSON

Department of Plant Breeding, Swedish University of Agricultural Sciences, S-268 31, Svalöv, Sweden

November 27, 1995 ; April 30, 1996

Two cultivars of spring wheat ( Triticum aestivum L.), Sport (high protein) and WL4 (low protein), were grown to maturity in culture solution. Nitrogen in the form of nitrate was added in daily doses at stepwise-decreasing relative rates to ensure normal development, and both cultivars received the same total amount of N during development. At weekly intervals from anthesis to maturity the daily nitrate dose was, for selected groups of plants, labelled with¹⁵N. After the labelling period the selected plants were harvested and analysed. The cultivar WL4 produced more biomass than Sport, as well as more spikelets and more grains per ear, with a higher mean grain weight, such that grain yield of WL4 was 57% greater than Sport. The ears of both cultivars were heterogenous: mean grain weight was highest in middle spikelets, which also contained more grains; the N content followed the pattern of dry weight with more N in the middle spikelets; but the N concentration was practically the same in all spikelets (2.15% of d. wt in WL4 and 3.33% in Sport). The distribution of¹⁵N showed that the main stem ear matured much earlier than tiller ears. The results of this nitrogen-labelling experiment show that, late in development, substantial amounts of recently-absorbed N were immediately assimilated and transported to the ears. Transport of¹⁵N decreased earlier to the top spikelets than to the bottom spikelets. As both cultivars were grown under identical conditions and both received the same amount of N it was concluded that the difference in grain N concentration was not caused by differences in the capacity of N assimilation and translocation but rather by different rates of accumulation of non-nitrogenous dry matter in the grains.

Ear; grain; nitrate; nitrogen transport; Triticum aestivum L.; yield

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