Magnesium deficiency induced leaf chlorosis affects plant growth, mineral concentration and fruit quality in field pomelo trees

IF 4.8 Q1 AGRICULTURE, MULTIDISCIPLINARY
Jiuxin Guo , Xiaona Li , Yuwen Wang , Wenlang Hu , Lijun Zhang , Ziwei Luo , Hao Xu , Li-Song Chen
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Abstract

Healthy trees are considered the foundation for high-quality pomelo production; however, leaf chlorosis frequently happens in pomelo orchards, and the reasons and adverse effects on plant growth and fruit quality are poorly understood. We conducted a field investigation with six paired groups between the yellow and green leaves of pomelo trees to analyze the growth, mineral and quality characteristics in different leaf positions and fruit parts. Compared with green pomelo trees, the concentrations of nitrogen (N), phosphorus (P), calcium (Ca), and magnesium (Mg) were decreased and increased potassium (K) in various leaf organs of yellow pomelo trees, resulting in accumulated non-structural carbohydrates and reduced growth variables (including SPAD value as relative chlorophyll content, dry weight, leaf area, water content, and specific leaf weight), which was amplified with fruit than without fruit. Also, there was the highest positive correlation between leaf Mg concentration and SPAD value, further confirmed by the path analysis and random forest analysis, implying that Mg is the main factor affecting leaf chlorosis. Moreover, leaf chlorosis also affected fruit quality, in which the concentrations of N, P and Ca were decreased and increased K and Mg, with lower sugar content (including total soluble sugar, sucrose, and total soluble solids) and higher acidity content (including pH, vitamin C, and titratable acidity), resulting in decreased total soluble solids/titratable acidity and antioxidant capacity (less phenol content). The positive correlations between leaf Mg concentration and fruit quality parameters were also observed. However, these measured parameters were highly separated and accounted for 53.1 % of leaf and fruit organs between the yellow and green leaves of pomelo trees. Overall, our results demonstrate that Mg deficiency induced leaf chlorosis affects plant growth and fruit quality in pomelo trees, that SPAD can be used to monitor leaf Mg status, and these findings provide the basis for optimized nutrient management in sustainable pomelo production.

Abstract Image

缺镁引起的叶片萎黄对大田柚子树的植株生长、矿物质浓度和果实品质的影响
健康的柚树是优质柚子生产的基础;然而,柚园中经常出现叶片萎黄病,其原因及对植物生长和果实品质的不利影响却鲜为人知。我们对柚树的黄叶和绿叶进行了六组配对田间调查,分析了不同叶片位置和果实部位的生长、矿物质和品质特征。与绿叶柚树相比,黄叶柚树各叶片器官中氮(N)、磷(P)、钙(Ca)和镁(Mg)的浓度降低,钾(K)的浓度升高,导致非结构性碳水化合物积累和生长变量(包括作为相对叶绿素含量的SPAD值、干重、叶面积、含水量和比叶重)降低,有果比无果的生长变量放大。此外,叶片镁浓度与 SPAD 值之间的正相关性最高,路径分析和随机森林分析进一步证实了这一点,即镁是影响叶片萎黄病的主要因素。此外,叶片萎黄病还影响果实品质,其中氮、磷和钙的浓度降低,钾和镁的浓度升高,含糖量(包括总可溶性糖、蔗糖和总可溶性固形物)降低,酸度(包括 pH 值、维生素 C 和可滴定酸度)升高,导致总可溶性固形物/可滴定酸度和抗氧化能力(酚含量降低)降低。叶片镁浓度与果实质量参数之间也呈正相关。不过,这些测量参数高度分离,占柚子树黄叶和绿叶之间叶片和果实器官的 53.1%。总之,我们的研究结果表明,镁缺乏引起的叶片萎黄会影响柚子树的植株生长和果实品质,SPAD 可用于监测叶片的镁状态,这些发现为柚子可持续生产中的优化养分管理提供了依据。
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
CiteScore
5.40
自引率
2.60%
发文量
193
审稿时长
69 days
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