Xylem Functionality Is Not a Direct Indicator of Apple Preharvest Fruit Drop

IF 1.2 4区农林科学 Q3 HORTICULTURE

Journal of the American Society for Horticultural Science Pub Date : 2023-05-01 DOI:10.21273/jashs05302-23

James E. Larson, A. Malladi, T. Kon

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引用次数: 1

Abstract

Apple (Malus ×domestica) growers can incur significant economic losses when fruit drop before they can be harvested [preharvest fruit drop (PFD)]. In some years and cultivars, more than 30% of potential yield can be lost. Growers frequently apply plant bioregulators to reduce PFD, either via delay in maturity [aminoethoxyvinylglycine (AVG), 1-methylcycolpropene] or via inhibition in production of cell hydrolysis enzymes in the fruit pedicel [naphthalene acetic acid (NAA)]. Finding a physiological indicator of PFD would allow growers to assess the susceptibility of fruit to PFD. Due to its lignification, xylem is believed to be the last tissue to break down in the fruit pedicel, leading to PFD. To determine whether loss in xylem functionality can be used as an indicator of PFD potential, studies were conducted in 2020 and 2021 with ‘Red Delicious’ treated with AVG (132 µL·L−1), NAA (10 µL·L−1), and an ethylene-producing compound [ethephon (150 µL·L−1 in 2020, 200 µL·L−1 in 2021)] to generate a range of PFD potentials. Xylem functionality was assessed in the fruit cortex. Internal ethylene content (IEC), fruit maturity indices, and PFD rates were quantified weekly throughout the harvest period. Expression of genes encoding for cell hydrolysis enzymes (MdEG1 and MdPG2) was quantified to relate xylem functionality to fruit abscission mechanisms. In 2020 and 2021, AVG reduced PFD compared with the untreated control by decreasing IEC. Although ethephon did not result in higher PFD than untreated fruit, NAA reduced PFD in 2020 but not 2021. For all treatments in both years, there was a linear decrease in xylem functionality throughout the measurement period. Cumulative PFD exponentially decreased as xylem functionality neared zero and the climacteric rise in ethylene began. Concurrent with the rise in IEC and PFD was an increase in the expression of MdEG1 and MdPG2 in the fruit pedicel of the control compared with AVG-treated fruit. AVG-treated fruit lost xylem functionality at a similar rate to the untreated control but had lower expression of MdEG1 and MdPG2. These results indicate that xylem functionality is not a sole direct indicator of PFD. The concurrent increase in PFD and expression of MdEG1/MdPG2 supports previous research indicating that these two genes may serve as potential markers for PFD.

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木质部功能不是苹果收获前果实脱落的直接指标

苹果(Malus ×domestica)种植者在收获前就掉落果实(pre - harvest fruit drop, PFD)会造成重大的经济损失。在某些年份和品种中，可能会损失30%以上的潜在产量。种植者经常使用植物生物调节剂来减少PFD，要么通过延迟成熟[氨基乙氧基乙烯基甘氨酸(AVG)， 1-甲基环丙烯]，要么通过抑制果蒂细胞水解酶的产生[萘乙酸(NAA)]。找到PFD的生理指标将使种植者能够评估水果对PFD的敏感性。由于木质化，木质部被认为是水果花梗中最后一个分解的组织，导致PFD。为了确定木质部功能损失是否可以作为PFD电位的指标，研究人员在2020年和2021年对“红美味”进行了研究，用AVG(132µL·L−1)、NAA(10µL·L−1)和乙烯生成化合物[乙烯利(2020年为150µL·L−1,2021年为200µL·L−1)处理，以产生一系列PFD电位。对果实皮层木质部功能进行了评估。内乙烯含量(IEC)、果实成熟度指数和PFD率在整个采收期每周进行量化。编码细胞水解酶的基因(MdEG1和MdPG2)的表达被量化，以将木质部功能与果实脱落机制联系起来。在2020年和2021年，与未经处理的对照组相比，AVG通过降低IEC降低了PFD。尽管乙烯利没有导致比未经处理的水果更高的PFD，但NAA在2020年降低了PFD，但在2021年没有。在两个年份的所有处理中，木质部功能在整个测量期间呈线性下降。随着木质部功能接近于零，乙烯开始进入更年期，累积PFD呈指数下降。与avg处理的果实相比，对照果实花梗中MdEG1和MdPG2的表达在IEC和PFD升高的同时也有所增加。avg处理的果实木质部功能丧失率与未处理的相似，但MdEG1和MdPG2的表达量较低。这些结果表明木质部功能不是PFD的唯一直接指标。PFD的同时增加和MdEG1/MdPG2的表达支持了先前的研究，表明这两个基因可能作为PFD的潜在标记物。

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

Journal of the American Society for Horticultural Science 农林科学-园艺

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： The Journal of the American Society for Horticultural Science publishes papers on the results of original research on horticultural plants and their products or directly related research areas. Its prime function is to communicate mission-oriented, fundamental research to other researchers. The journal includes detailed reports of original research results on various aspects of horticultural science and directly related subjects such as: - Biotechnology - Developmental Physiology - Environmental Stress Physiology - Genetics and Breeding - Photosynthesis, Sources-Sink Physiology - Postharvest Biology - Seed Physiology - Postharvest Biology - Seed Physiology - Soil-Plant-Water Relationships - Statistics