Synergistic effect of indole‒3‒acetic acid and nitrogen on yield, sugar profile, and nitrogen utilization of salt-stressed sugar beet crop.

IF 4.3 2区生物学 Q1 PLANT SCIENCES

BMC Plant Biology Pub Date : 2025-05-13 DOI:10.1186/s12870-025-06531-9

Ahmed Shaaban, Hani S Saudy, Mohamed A M Eid, Sammar F Zahran, Ali A A Mekdad

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引用次数: 0

Abstract

Purpose: Salt stress often reduces plant efficiency in nutrient utilization, particularly nitrogen (N), leading to physiological disorders, primarily those related to phytohormones. Hence, the current study assessed the combined effect of indole-3-acetic acid (IAA) and N in inducing salt stress tolerance in sugar beet.

Methods: Using a split-plot in randomized complete block design replicated thrice, the effect of three IAA levels (0, 150, and 300 mg L^- 1, denoted IAA₀, IAA₁₅₀ and IAA₃₀₀, respectively) and three N fertilization rates (240, 290, and 340 kg N ha^- 1, abbreviated as N₂₄₀, N₂₉₀ and N₃₄₀, respectively) on sugar beet's growth, nutritional status, and quality and sugar quality in saline soil was explored.

Results: Findings exhibited that IAA₃₀₀ × N₃₄₀ was the best combination for enhancing root diameter, leaf fresh weight, and leaf area index. Ionic homeostasis, expressed as the leaf K⁺/Na⁺ and Ca²⁺/Na⁺ ratios, reached its highest values with N₃₄₀ (1.21 and 0.51, respectively), exceeding those observed with N₂₄₀ and N₂₉₀. The IAA₀ or IAA₁₅₀ × N₃₄₀ gave the highest juice sodium content (34.0 and 33.8 mmol kg⁻¹, respectively), while N₂₄₀ across all IAA treatments recorded the lowest ones. The IAA₃₀₀ × N₃₄₀ was the most effective practice for enhancing yields and N use efficiency in sugar beet, resulting in the highest root yield (97.6 t ha⁻¹), pure sugar yield (14.50 t ha⁻¹), and N use efficiency (0.342 kg root kg⁻¹ N), significantly outperforming other IAA × N interactions.

Conclusion: In conclusion, progressive increases in IAA and N caused the enhancements sugar beet growth, yield, and related quality, since IAA at 300 mg L^- 1 plus N at 340 kg N ha^- 1 had the favorable synergism in this respect.

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吲哚- 3 -乙酸与氮素对盐胁迫甜菜产量、糖谱及氮素利用的协同效应

目的：盐胁迫通常会降低植物对养分的利用效率，特别是氮的利用效率，导致生理紊乱，主要是与植物激素有关的生理紊乱。因此，本研究评估了吲哚-3-乙酸（IAA）和N在诱导甜菜耐盐胁迫中的联合作用。方法：采用3次重复的随机完全区组设计，采用裂地法，研究了3种IAA水平（0、150和300 mg L- 1，分别为IAA0、IAA150和IAA300）和3种氮肥施用量（240、290和340 kg N ha- 1，分别为N240、N290和N340）对盐碱地甜菜生长、营养状况、品质和糖质的影响。结果：IAA300 × N340是提高根径、叶鲜重和叶面积指数的最佳组合。以叶片K + /Na +和Ca 2 + /Na +比值表示的离子稳态在N340中达到最大值（分别为1.21和0.51），超过了N240和N290。IAA0或IAA150 × N340处理的果汁钠含量最高（分别为34.0和33.8 mmol kg⁻¹），而N240处理的果汁钠含量最低。IAA300 × N340是提高甜菜产量和氮利用效率的最有效方法，其结果是最高的根产量（97.6 t³（毒血症）），纯糖产量（14.50 t³（毒血症））和氮利用效率（0.342 kg kg（毒血症）），显著优于其他IAA × N相互作用。结论：IAA和N的逐步增加促进了甜菜的生长、产量和相关品质，其中IAA 300 mg L- 1 + N 340 kg N ha- 1在这方面具有良好的协同效应。

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来源期刊

BMC Plant Biology 生物-植物科学

CiteScore

8.40

自引率

3.80%

发文量

539

审稿时长

3.8 months

期刊介绍： BMC Plant Biology is an open access, peer-reviewed journal that considers articles on all aspects of plant biology, including molecular, cellular, tissue, organ and whole organism research.