Alphonse Lavallee' (Vitis vinifera L. cv) 葡萄休眠芽和叶肉组织的耐寒性：季节性观察和一些处理方法的影响

IF 1.2 4区农林科学 Q3 HORTICULTURE

Erwerbs-Obstbau Pub Date : 2024-04-08 DOI:10.1007/s10341-024-01069-w

Bulent Kose, Yahya Uray, Kevser Bayram, Turhan Yilmaz, Ozkan Kaya

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引用次数: 0

摘要

葡萄在关键的生长发育阶段极易受到寒害，对葡萄栽培造成影响。了解葡萄休眠芽和韧皮部组织耐寒性的复杂动态对于制定有效的缓解策略至关重要。在本研究中，我们调查了不同处理和取样时间下的 LT50 值，该值代表 50%的芽受损时的温度。在研究中，我们评估了四种处理方法（氧化钾（K2O）、氯化钙（CaCl2）、海藻（SW）和对照组）对葡萄芽和韧皮部组织耐寒性的影响。不同季节的主芽LT50值不同，1月份为-22.46 °C，2月份为-22.35 °C，3月份为-20.45 °C。K2O 处理有改善的趋势，但与对照（-21.99 °C）的差异无统计学意义。关于 LT50 值，CaCl2 和 SW 的应用与对照没有显著差异。然而，施用 K2O 后，三级芽的耐寒性大大提高，LT50 值明显低于对照（-23.55 °C）。韧皮部组织的 LT50 值在不同处理之间没有明显差异，变异性较小。在所有采样期，施用 K2O 后芽苞含水量都明显增加（1 月：35.41% vs. 1 月：35.41%）：35.41% 对 35.61%；二月34.03% 对 39.16%；3 月42.40%对37.82%），而嫩枝含水量保持稳定。总之，K2O 是一个关键的影响因素，尤其是在提高三级芽的耐寒性方面。这些见解为在葡萄栽培中采取有针对性的霜冻缓解策略提供了知识基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Cold Hardiness in ‘Alphonse Lavallee’ (Vitis vinifera L. cv) Grape Dormant Buds and Phloem Tissue: Seasonal Insights and Some Treatment Impacts

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Cold Hardiness in ‘Alphonse Lavallee’ (Vitis vinifera L. cv) Grape Dormant Buds and Phloem Tissue: Seasonal Insights and Some Treatment Impacts

Grapes are highly susceptible to cold damage during critical developmental stages, impacting viticulture. Understanding the intricate dynamics of cold hardiness in grape dormant buds and phloem tissue is crucial for developing effective mitigation strategies. In this study, we investigated the LT₅₀ values, representing the temperature at which 50% of buds are damaged, under different treatments and sampling times. In our research, we evaluated the effects of four treatments—potassium oxide (K₂O), calcium chloride (CaCl₂), seaweed (SW), and a control—on the cold hardiness of grapevine buds and phloem tissue. Primary bud LT₅₀ values varied across seasons, with January at −22.46 °C, February at −22.35 °C, and March at −20.45 °C. K₂O treatment showed a trend toward improvement, although the difference from the control (−21.99 °C) was not statistically significant. Regarding LT₅₀ values, CaCl₂ and SW applications did not significantly differ from the control. Tertiary buds, however, exhibited a substantial enhancement in cold hardiness with K₂O application, displaying significantly lower LT₅₀ values compared to the control (−23.55 °C). Phloem tissue LT₅₀ values did not significantly differ among treatments, showing less variability. Bud water content significantly increased with K₂O application in all sampling periods (January: 35.41% vs. 35.61%; February: 34.03% vs. 39.16%; March: 42.40% vs. 37.82%), while shoot water content remained stable. In conclusion, K₂O emerges as a key influencer, particularly in enhancing the cold hardiness of tertiary buds. These insights contribute to the knowledge base for targeted frost mitigation strategies in viticulture.

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来源期刊

Erwerbs-Obstbau 农林科学-园艺

CiteScore

1.70

自引率

15.40%

发文量

152

审稿时长

>12 weeks

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