Covering young avocado ‘Hass’ trees with high-density shading nets during the winter mitigates frost damage and improves tree performance

IF 2.1 3区 农林科学 Q2 FORESTRY
Trees Pub Date : 2024-02-05 DOI:10.1007/s00468-023-02485-3
Michal Lahak, Eitan Alon, Assaf Chen, Lior Rubinovich
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引用次数: 0

Key message

Covering young ‘Hass’ trees with Silver 60% shading nets during cold winters mitigates frost damage and improves tree performance, apparently through a mechanism other than increasing nighttime air temperature.

Abstract

Avocado is a commercially important subtropical evergreen fruit tree. Severe frost may damage foliage, floral buds, flowers and fruit, thereby reducing avocado crop yield and restricting its geographical distribution and expansion. Shading nets are frequently used to protect agricultural crops from climate-related damage. To determine their ability to mitigate frost damage, Silver 60% shading nets were deployed over young ‘Hass’ trees during two consecutive winters and uncovered trees served as controls. Freezing and chilling temperatures occurred in the experimental orchard during the winter of each year, from December to March, reaching − 2.49 ℃ in January 2022. In the control, 93% of the examined floral buds were severely damaged compared to 4% in the Silver 60% trees. Damage to young vegetative shoots was assessed at 4.35 out of 5 in the control compared to 0.5 out of 5 in the Silver 60% trees. In both years, minimum air temperatures under the Silver 60% shading nets were similar to those of the control. Leaf-level photosynthetic photon flux density was ~ 60% lower under the shading nets. In most measurements, CO2-assimilation rate, stomatal conductance, ratio of variable to maximum fluorescence (Fv/Fm) and chlorophyll concentration in the leaves of the Silver 60% trees were higher than, or similar to the controls. Trunk diameter and flowering intensity of the Silver 60% trees were higher than for the control. These results indicate that covering young ‘Hass’ trees with Silver 60% shading nets during cold winters can mitigate frost damage and improve tree performance.

Abstract Image

在冬季用高密度遮阳网覆盖 "哈斯 "鳄梨幼树,可减轻冻害并提高树势
关键信息在寒冷的冬季给'哈斯'幼树覆盖银60%遮阳网可减轻冻害并改善树势,这显然是通过增加夜间气温以外的机制实现的。 摘要鳄梨是一种具有重要商业价值的亚热带常绿果树。严重的霜冻可能会损害叶片、花蕾、花朵和果实,从而降低牛油果的产量,限制其地理分布和扩展。遮阳网常用来保护农作物免受与气候有关的损害。为了确定遮阳网减轻冻害的能力,在连续两个冬季,在 "哈斯 "幼树上布设了遮阳率为 60% 的遮阳网,并以未遮盖的树木作为对照。每年冬季的 12 月至次年 3 月,试验果园都会出现冰冻和寒潮,2022 年 1 月的气温达到零下 2.49 ℃。在对照组中,93% 的受检花芽严重受损,而在银60% 的树木中,只有4% 的花芽严重受损。对照组无性系幼芽的受损程度为 4.35(满分 5 分),而银 60% 树木的受损程度为 0.5(满分 5 分)。这两年,银饰 60% 遮光网下的最低气温与对照组相似。遮光网下叶片光合光通量密度比对照低约 60%。在大多数测量中,银饰 60% 树叶的二氧化碳同化率、气孔导度、可变荧光与最大荧光之比(Fv/Fm)和叶绿素浓度都高于对照组或与之相近。银色 60% 树的树干直径和开花强度均高于对照。这些结果表明,在寒冷的冬季用银60%遮阳网覆盖 "哈斯 "幼树可以减轻冻害,提高树木的生长性能。
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
Trees
Trees 农林科学-林学
CiteScore
4.50
自引率
4.30%
发文量
113
审稿时长
3.8 months
期刊介绍: Trees - Structure and Function publishes original articles on the physiology, biochemistry, functional anatomy, structure and ecology of trees and other woody plants. Also presented are articles concerned with pathology and technological problems, when they contribute to the basic understanding of structure and function of trees. In addition to original articles and short communications, the journal publishes reviews on selected topics concerning the structure and function of trees.
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