Effects of combined application of phosphorus and zinc on growth and physiological characteristics of apple rootstock M9-T337 seedlings (Malus domestica Borkh.).

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-10-24 DOI:10.1186/s12870-024-05724-y
Xulin Xian, Wentai Sun, Zhongxing Zhang, Yanlong Gao, Cailong Li, Liang Ding, Yanxiu Wang
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Abstract

Background: Balancing nutrient application is crucial for plant growth. However, excessive fertilizer use, especially imbalanced applications of macronutrients such as phosphate (P), can hinder plant uptake of micronutrients. Balanced P and zinc (Zn) are vital for apple yield and quality, and apple trees are highly sensitive to deficiencies in these nutrients. Therefore, this study was conducted in May 2022, employed a sand culture experiment to investigate the effects of varying P and Zn levels on the growth phenotype, photosynthetic capacity, antioxidant enzyme activity, sugar composition, endogenous hormone levels, and nutrient absorption and utilization of M9-T337 seedlings. Three levels of P (low, medium, high) and three levels of Zn (low, medium, high) were combined to create a total of nine distinct treatment.

Results: The results indicate that combined P and Zn fertilization at various levels exerts either synergistic or antagonistic effects on the growth, nutrient absorption, and utilization of M9-T337 seedlings. Compared to low and medium levels of P, a combination of high P (4 mmol·L-1) and an adequate amount of Zn significantly enhanced plant growth, root system development, and the microstructure of leaves. Notably, seedlings treated with high P and low Zn (HPLZn) reached a height 1.54 times that of the medium P and medium Zn (MPMZn, control). Physiological indicators under HP conditions revealed significant increases in antioxidant enzyme activity, leaf water retention, photosynthetic pigment concentration, osmotic adjustment substances, and the contents of glucose, sucrose, fructose, endogenous hormones, as well as P and Zn accumulation in the leaves, compared to the control. However, an increase in Zn application led to a declining trend in these parameters. Specifically, the HPLZn treatment exhibited substantial increases in Net photosynthetic rate (Pn), Total chlorophyll (Chl a + b), glucose, fructose, sucrose, and Auxin(IAA), with increments of 7.12%, 27.32%, 11.40%, 23.20%, 16.67%, and 55.11%, respectively, compared to the control.

Conclusion: Based on the comprehensive ranking from principal component analysis, the combination of HP ( 4 mmol·L-1) and LZn (0.5 µmol·L-1) was found to be the most effective in enhancing the antioxidant capacity, sugar accumulation, osmotic regulation ability, photosynthetic capacity, endogenous hormone levels, as well as P and Zn nutrient absorption and utilization in M9-T337 seedlings.

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磷锌联合施用对苹果砧木 M9-T337 幼苗(Malus domestica Borkh.)
背景:平衡施肥对植物生长至关重要。然而,过量施肥,尤其是磷酸盐(P)等宏量营养元素的不均衡施用,会阻碍植物对微量营养元素的吸收。均衡的磷和锌对苹果的产量和质量至关重要,而苹果树对这些营养元素的缺乏非常敏感。因此,本研究于2022年5月进行了一项沙培实验,研究不同钾和锌水平对M9-T337幼苗的生长表型、光合能力、抗氧化酶活性、糖分组成、内源激素水平以及养分吸收和利用的影响。将三个水平的磷(低、中、高)和三个水平的锌(低、中、高)结合起来,共形成九种不同的处理:结果:结果表明,不同水平的磷锌复合施肥对 M9-T337 幼苗的生长、养分吸收和利用具有协同或拮抗作用。与低浓度和中浓度相比,高浓度磷(4 mmol-L-1)和适量锌的组合能显著提高植物的生长、根系发育和叶片的微观结构。值得注意的是,经高磷低锌(HPLZn)处理的幼苗高度是中磷中锌(MPMZn,对照组)的 1.54 倍。与对照相比,HP 条件下的生理指标显示,抗氧化酶活性、叶片保水性、光合色素浓度、渗透调节物质、葡萄糖、蔗糖、果糖含量、内源激素以及叶片中 P 和 Zn 的积累均显著增加。然而,施锌量的增加导致这些参数呈下降趋势。具体而言,与对照相比,HPLZn处理的净光合速率(Pn)、总叶绿素(Chl a + b)、葡萄糖、果糖、蔗糖和叶黄素(IAA)均有显著增加,分别增加了7.12%、27.32%、11.40%、23.20%、16.67%和55.11%:根据主成分分析的综合排名,发现 HP(4 mmol-L-1)和 LZn(0.5 µmol-L-1)的组合对提高 M9-T337 幼苗的抗氧化能力、糖分积累、渗透调节能力、光合能力、内源激素水平以及 P 和 Zn 养分的吸收和利用最有效。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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