Effects of Mechanical Flower Thinning on the Fruit Set and Fruit Quality Attributes of ‘Hongro’ Apples

IF 1 4区农林科学 Q3 HORTICULTURE

Korean Journal of Horticultural Science & Technology Pub Date : 2023-04-30 DOI:10.7235/hort.20230014

Nay Myo Win, Yang-Yik Song, Jong-Chul Nam, Young Sik Cho, Sang-Jin Yang, Jingi Yoo, In-Kyu Kang, Juhyeon Park

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引用次数: 0

Abstract

‘Hongro’ apple flowers were thinned with chemical (lime sulfur), low mechanical (200 rpm rotor speed, 4 km·h-1 tractor speed), high mechanical (300 rpm, 6 km·h-1), low mechanical (200 rpm, 4 km·h-1) + chemical, and high mechanical (300 rpm, 6 km·h-1) + chemical thinning treatments. Manual (hand) thinning served as a control. Most terminal and lateral flowers per cluster were removed by high mechanical thinning and the combination of this method with chemical thinning, compared to low mechanical thinning combined with chemical thinning. Additionally, the fruit set rate for both terminal and lateral flowers was mostly reduced when using the high mechanical + chemical thinning combination. However, a higher rotor speed during mechanical thinning increased the leaf damage rate compared to a lower rotor speed. Moreover, the high mechanical + chemical thinning combination improved flesh firmness, titratable acidity, and the soluble solid content in fruit at harvest compared to the control plants with low mechanical thinning combined with chemical thinning. The a* value (measured in fruit peel by CIE L* a* b* method) was highest when high mechanical thinning was used and lowest when chemical thinning was used. However, the fruit weight and size and the starch index were unaffected by all thinning treatments. Overall, the effects of mechanical thinning varied according to the rotor and tractor speed, and a high rotor speed (300 rpm) had a greater impact than a lower rotor speed (200 rpm). The highest thinning efficiency was achieved when using the high mechanical + chemical thinning combination, which improved the fruit quality of ‘Hongro’ apples.

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机械疏花对‘红高’苹果坐果和品质特性的影响

用化学(石灰硫)、低机械(200转/分转子转速，4公里·h-1拖拉机转速)、高机械(300转/分，6公里·h-1)、低机械(200转/分，4公里·h-1) +化学和高机械(300转/分，6公里·h-1) +化学减薄处理‘Hongro’苹果花。手工(手)减薄作为对照。与低机械间伐和化学间伐相结合的方法相比，高机械间伐和化学间伐相结合的方法去除了每簇的大多数端部和侧部花。此外，施用高强度机械+化学间伐能显著降低顶花和侧花的坐果率。然而，在机械减薄过程中，较高的转子转速比较低的转子转速增加了叶片损伤率。此外，与机械疏伐与化学疏伐相结合的对照植株相比，机械疏伐与化学疏伐相结合的高强度组合提高了收获时果实的果肉硬度、可滴定酸度和可溶性固形物含量。果皮中a*值(用CIE L* a* b*法测定)在使用高机械稀释时最高，在使用化学稀释时最低。然而，所有间伐处理均不影响果实的重量、大小和淀粉指数。总的来说，机械减薄的效果根据转子和拖拉机的速度而变化，高转子速度(300转/分)比低转子速度(200转/分)的影响更大。采用高强度机械+化学减薄组合，减薄效率最高，提高了红绿苹果的果实品质。

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

Korean Journal of Horticultural Science & Technology 农林科学-园艺

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Horticultural Science and Technology (abbr. Hortic. Sci. Technol., herein ‘HST’; ISSN, 1226-8763), one of the two official journals of the Korean Society for Horticultural Science (KSHS), was launched in 1998 to provides scientific and professional publication on technology and sciences of horticultural area. As an international journal, HST is published in English and Korean, bimonthly on the last day of even number months, and indexed in ‘SCIE’, ‘SCOPUS’ and ‘CABI’. The HST is devoted for the publication of technical and academic papers and review articles on such arears as cultivation physiology, protected horticulture, postharvest technology, genetics and breeding, tissue culture and biotechnology, and other related to vegetables, fruit, ornamental, and herbal plants.