Genotypic variation in N uptake and assimilation estimated by 15N tracing in water deficit-stressed Brassica napus - INRAE - Institut national de recherche pour l’agriculture, l’alimentation et l’environnement Access content directly
Journal Articles Environmental and Experimental Botany Year : 2015

Genotypic variation in N uptake and assimilation estimated by 15N tracing in water deficit-stressed Brassica napus

Yu-Lan Jin
  • Function : Author
Sang-Hyun Park
  • Function : Author
Rashed Zaman
  • Function : Author
Qian Zhang

Abstract

To investigate varietal difference in nitrogen-use efficiency and water-deficit tolerance among eight Brassica napus cultivars, direct quantification of the amount of newly absorbed N and its incorporation to amino acids and proteins was performed by tracing N-15 for 7 days of well-watered (control) and water-deficit conditions. Water deficit leads to reduction of leaf water potential (Psi(w)), biomass, chlorophyll content and nitrogen concentration with cultivar variation. The amount of newly absorbed N for the given time significantly decreased in water-deficit plants, which can be classified into three groups; high N uptake [Saturnin, Tamra (>6.5 mg plant(-1))], medium [Colosse, Sparta, Capitol, Akela (4-6 mg plant(-1))], and low [Youngsan, Pollen (<4 mg plant(-1))]. Water deficit significantly decreased overall the amount of N assimilated into amino acids and proteins. Significant cultivar variation for the inhibition of de novo protein synthesis caused by water deficit was found, being the highest in Pollen (-42.2% compared to control) versus the lowest in Saturnin (-31.2%). By an estimation of nitrogen-use efficiency based on N uptake (NUpE) and N assimilation (NUaE), Saturnin and Tamra could be identified as N-efficient genotypes, while Youngsan and Pollen as inefficient ones. It was found that cultivar variation in NUpE and NUaE was significantly associated with the change in Psi(w) as affected by water deficit. The present study suggests that the Psi(w) can be used as an easy and sensitive determinant predictive for assessing NUpE which is a preliminary factor for NUaE under water deficit
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Dates and versions

hal-02183521 , version 1 (15-07-2019)

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Bok-Rye Lee, Yu-Lan Jin, Sang-Hyun Park, Rashed Zaman, Qian Zhang, et al.. Genotypic variation in N uptake and assimilation estimated by 15N tracing in water deficit-stressed Brassica napus. Environmental and Experimental Botany, 2015, 109, pp.73-79. ⟨10.1016/j.envexpbot.2014.08.004⟩. ⟨hal-02183521⟩
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