Conditioning To Low Nitrogen Regimes Results In Rice Plants Better Nitrogen (n) deficiency is abiotic stress to which rice plants may be frequently exposed. the aim was to investigate whether the exposure of rice plants to complete cultivation cycles with low n stress results in plants better adapted to this condition. the rice plants, varieties manteiga and piaui, were grown for three generations under the following conditions: control, sufficient n (60 kg n. Ing rice plants to low n supply improves the performance of these plants when subjected again to low n conditions. the objectives of this study are to investigate the eect of low nitrogen stress on rice adaptation to low n condition in dierent crop cycles and to discuss molecular and morpho physiological mechanisms possibly related to adaptation.
Frontiers Recent Trends In Nitrogen Cycle And Eco Efficient Nitrogen The aim was to investigate whether the exposure of rice plants to complete cultivation cycles with low n stress results in plants better adapted to this condition. Exposure of rice plants to intermittent and recurrent n stress promotes molecular, physiological, and metabolic changes, which together improve n stress adaptation and result in greater grain yield and quality compared to that in ns1. nitrogen (n) deficiency is abiotic stress to which rice plants may be frequently exposed. the aim was to investigate whether the exposure of rice plants to. Optimizing irrigation and nitrogen regimes in rice plants can. has resulted in low nitrogen use efficiency results indicated that cereal nue in 2015 was 35, 41, 30, and 21% for the world. Conditioning to low nitrogen regimes results in rice plants better adapted to low nitrogen stress through dna methylation, metabolic, and morpho physiological modifications pereira, erinaldo gomes; santos, leandro azevedo; de melo, maria eduarda pimentel; budzinski, ilara gabriela frasson; amaral, mayan blanc; de souza, marco andré alves; garcía, andrés calderín; fernandes, manlio silvestre.
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