Effect of nitrogen fertilization on nitrogen dynamics in oilseed rape using 15N‐labeling field experiment |
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Authors: | Julie Gombert Frédérik Le Dily Jérémy Lothier Philippe Etienne Laurence Rossato Jean‐Michel Allirand Alexandra Jullien Alexandre Savin Alain Ourry |
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Affiliation: | 1. UMR950 Ecophysiologie Végétale, Agronomie et nutritions N, C, S, Université de Caen Basse Normandie, INRA, F‐14032 Caen, France;2. Centre for Mined Land Rehabilitation, The University of Queensland, Brisbane, Queensland 4072, Australia;3. UMR1091 Environnement et Grandes Cultures, INRA, AgroParisTech, F‐78850 Thiverval Grignon, France |
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Abstract: | In order to optimize nitrogen (N) fertilization and to reduce the environmental impact of oilseed rape without decreasing yield, a clearer understanding of N dynamics inside the plant is crucial. The present investigation therefore aimed to study the effects of different N‐application rates on the dynamics of N uptake, partitioning, and remobilization. The experiment was conducted on winter oilseed rape (Brassica napus L. cv. Capitol) under three levels of N input (0, 100, and 200 kg N ha–1) from stem elongation to maturity using 15N‐labeling technique to distinguish between N uptake and N retranslocation in the plant. Nitrogen fertilization affected the time‐course of N uptake and also the allocation of N taken up from flowering to maturity. Most pod N came from N remobilization, and leaves accounted for the largest source of remobilized N regardless the N‐application rate. However, the contribution of leaves to the remobilized N pool increased with the N dose whereas the one of taproot decreased. Stems were the main sink for remobilized N from stem elongation to flowering. Leaves remained longer on N200 than on N0 and N100 plants, and N concentration in fallen leaves increased with the N treatment and in N100 plants along an axial gradient from the basal to the upper leaves. Overall, these results show that the timing of N supply is more crucial than the N amount to attain a high N efficiency. |
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Keywords: | Brassica napus L. nitrogen uptake remobilization stable isotope |
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