Seed Yield Components and Seed Quality of Oilseed Rape Are Impacted by Sulfur Fertilization and Its Interactions With Nitrogen Fertilization

• Published in: Frontiers in plant science Vol. 10; p. 458
• Main Authors: Poisson, Emilie, Trouverie, Jacques, Brunel-Muguet, S, Akmouche, Yacine, Pontet, Célia, Pinochet, Xavier, Avice, Jean-Christophe
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers 16.04.2019; Frontiers Media S.A
• Subjects: Brassica napus L; fertilization; Life Sciences; Plant Science; seed quality; seed yield; sulfur deficiency; sulfur/nitrogen interactions; Vegetal Biology; Brassica napus L; seed quality; fertilization; sulfur/nitrogen interactions; seed yield; sulfur deficiency; protein quality; brassica napus L
• ISSN: 1664-462X; 1664-462X
• DOI: 10.3389/fpls.2019.00458

Although the impact of sulfur (S) availability on the seed yield and nutritional quality of seeds has been demonstrated, its impact coupled with nitrogen (N) availability remains poorly studied in oilseed rape. A deeper knowledge of S and N interactions on seed yield components and seed quality could improve S and N fertilization management in a sustainable manner. To address this question, our goals were to determine the effects of nine different S fertilization management strategies (i) in interaction with different levels of N fertilization and (ii) according to the timing of application (by delaying and fractionating the S inputs) on agronomic performances and components of seed yield. The impact of these various managements of S and N fertilizations was also investigated on the seed quality with a focus on the composition of SSPs (mainly represented by napins and cruciferins). Our results highlighted synergetic effects on S and N use efficiencies at optimum rates of S and N inputs and antagonistic effects at excessive rates of one of the two elements. The data indicated that adjustment of S and N fertilization may lead to high seed yield and seed protein quality in a sustainable manner, especially in the context of reductions in N inputs. Delaying S inputs improved the seed protein quality by significantly increasing the relative abundance of napin (a SSP rich in S-containing amino acids) and decreasing the level of a cruciferin at 30 kDa (a SSP with low content of S-amino acids). These observations suggest that fractionated or delayed S fertilizer inputs could provide additional insights into the development of N and S management strategies to maintain or improve seed yield and protein quality. Our results also demonstrated that the S% in seeds and the napin:30 kDa-cruciferin ratio are highly dependent on S/N fertilization in relation to S supply. In addition, we observed a strong relationship between S% in seeds and the abundance of napin as well as the napin:30 kDa-cruciferin ratio, suggesting that S% may be used as a relevant index for the determination of protein quality in seeds in terms of S-containing amino acids.