Optimal phosphorus proportion increases cotton yields in low nitrogen environments by enhancing mid-upper canopy biomass and nitrogen utilization

IF 5.6 1区 农林科学 Q1 AGRICULTURAL ENGINEERING
Yan Chen , Xuehua Ma , Zheng He , Baoxia Ci , Yang Liu , Fuyu Ma
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Abstract

To elucidate the physiological mechanism of optimal phosphorus (P) proportion under reduced nitrogen (N) environments on cotton yield, dry matter (DM) spatiotemporal distribution, and N utilization. A three-year experiment was conducted with reduced N (299 kg hm−2, N3), four proportions of P fertilizer (25:75 % at squaring and bloom-bolling stages (P1), 50 %:50 % (P2), 75 %:25 % (P3), 100 %:0 % (P4)), and a traditional N application (402.5 kg hm−2, N2) with P2 as control. Under the N3 treatment, the seed yield of P2 was 6.7–24.5 % higher than other P, and the yield of N3P2 was 1.6–2.6 % lower than N2P2. During the whole growth period, P2 demonstrated 12.4–46.9 % higher leaf and reproductive organs dry matter (LDM and RoDM) compared to other P, and primarily due to more mid-upper DM. Throughout the growth period, N3P2 maintained dominant LDM and exhibited RoDM 2.5 % higher at late-full bolling stage (LFB) compared to N2P2. Trends in leaf N content and reproductive organ N content were similar to DM, with N3P2 consistently maintaining higher levels. Regarding N metabolism activities, N3P2 displayed 8.5–16.1 % higher activity of nitrate reductase, 9.5–21.9 % higher activity of glutamine synthetase, and 7.5 %-15.6 % higher activity of glutamate synthase compared to other P across all growth stages, with no significant differences observed with N2P2. Moreover, N3P2 and N2P2 exhibited higher relative expression of NR, GS1, and ferredoxin-dependent glutamate synthase compared to other treatments. In Conclusion, at 25 % reduced N (N3), optimizing the proportion of P fertilizer (P2, 50 %:50 %) could lead to higher yields due to enhanced N re-utilization capabilities in the later growth stage and increased distribution of DM in leaves and reproductive organs, particularly in the middle and upper layers (especially the fruiting branches). The study findings hold significant theoretical implications for achieving sustainable and efficient production in drip-irrigated cotton fields under reduced N management.

通过提高冠层中上部的生物量和氮利用率,优化磷配比,提高低氮环境下的棉花产量
阐明减氮环境下最佳磷(P)肥比例对棉花产量、干物质(DM)时空分布和氮利用率的生理机制。在减氮(299 kg hm-2,N3)、四种比例的磷肥(25:75 %,在抽穗期和开花期(P1);50:50 %(P2);75:25 %(P3);100:0 %(P4))和传统施氮(402.5 kg hm-2,N2)条件下,以 P2 为对照,进行了为期三年的试验。在 N3 处理下,P2 的种子产量比其他 P 高 6.7-24.5%,而 N3P2 的产量比 N2P2 低 1.6-2.6%。在整个生长期,P2 的叶片和生殖器官干物质(LDM 和 RoDM)比其他 P 高 12.4-46.9%,主要原因是中上部的 DM 较多。与 N2P2 相比,N3P2 在整个生长期都保持了主要的 LDM,并在全铃后期(LFB)表现出比 N2P2 高 2.5 % 的 RoDM。叶片氮含量和生殖器官氮含量的变化趋势与 DM 相似,N3P2 始终保持较高水平。在氮代谢活性方面,在所有生长阶段,与其他 P 相比,N3P2 的硝酸还原酶活性高 8.5%-16.1%,谷氨酰胺合成酶活性高 9.5%-21.9%,谷氨酸合成酶活性高 7.5%-15.6%,与 N2P2 没有显著差异。此外,与其他处理相比,N3P2 和 N2P2 表现出更高的 NR、GS1 和依赖铁氧还蛋白的谷氨酸合成酶相对表达量。总之,在氮素减少 25% 的情况下(N3),优化磷肥比例(P2,50%:50%)可提高产量,这是因为氮素在生长后期的再利用能力增强,DM 在叶片和生殖器官中的分布增加,特别是在中上层(尤其是果枝)。研究结果对减少氮管理下滴灌棉田实现可持续高效生产具有重要的理论意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Industrial Crops and Products
Industrial Crops and Products 农林科学-农业工程
CiteScore
9.50
自引率
8.50%
发文量
1518
审稿时长
43 days
期刊介绍: Industrial Crops and Products is an International Journal publishing academic and industrial research on industrial (defined as non-food/non-feed) crops and products. Papers concern both crop-oriented and bio-based materials from crops-oriented research, and should be of interest to an international audience, hypothesis driven, and where comparisons are made statistics performed.
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