杏种子和芽休眠的抗寒释放

M. El-Yazal, S. A. S. El-Yazal
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引用次数: 1

摘要

休眠在芽和种子中表现出共同的生理特征。通常需要一段特定的冷却时间来解除休眠。生殖分生组织和胚胎在分别被称为芽和种子的特殊结构中显示休眠机制,它们阻止多年生植物的生长,直到环境条件达到最佳生存条件。对20株杏树苗木进行了连续3年打破休眠的低温条件研究。对不同的估算方法进行了评价和比较,建立了不同的估算方法与开花日期之间的相关性。所研究的树木显示了一系列的冷却需求,冷却小时(CH)在199 ~ 274 CH之间,冷却单位(CU)在612CU ~ 873CU之间。与低于7°C的小时数相比,Utah和Dynamic模型在不同年份的结果更为均匀。不同杏树在开花期上存在显著差异,低温需要量与开花期呈高度正相关。此外,需要特殊的低温分层处理来克服种子休眠。5℃冷分层对打破种子休眠和萌发效果最好。随着层积时间的延长,种子发芽率增加。杏种子需要大约12-15天的冷分层才能达到最大发芽。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chilling-Requirement Release of Seed and Bud Dormancy in Apricot
Dormancy shows common physiological features in buds and seeds. Specific period of chilling is usually required to release dormancy. Reproductive meristems and embryos display dormancy mechanisms in specialized structures named respectively buds and seeds that arrest the growth of perennial plants until environmental conditions are optimal for survival. Chilling requirements for breaking dormancy were studied for 3 successive years in 20 seedling apricot trees which spanned the range of flowering times in these trees. Different methods for estimating chilling requirements were evaluated and compared, and correlations between chilling requirements and flowering date were established. The trees examined showed a range of chilling requirements, chill hours (CH) between 199 CH and 274 CH, and chill units, (CU), between 612CU and 873CU. The results obtained in different years by the Utah and Dynamic models were more homogeneous with respect to the hours below 7 °C model. The apricot trees showed important differences concerning flowering date, and the results indicate a high positive correlation between chilling requirements and flowering date.Moreover, a specific low-temperature stratification treatment was required to overcome seed dormancy. 5°C cold stratification was found to be the best for breaking seed dormancy and germination. Increased seed germination percentage was recorded when the period of stratification prolonged. Apricot seeds required a cold stratification of about 12-15 days to reach maximum germination.
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