Limiting temperatures of embryo growth and seed germination of Fraxinus excelsior L. (Oleaceae): a threshold model approach

IF 2.5 3区农林科学 Q1 FORESTRY

Annals of Forest Science Pub Date : 2023-10-16 DOI:10.1186/s13595-023-01205-8

Mikołaj Krzysztof Wawrzyniak, Juan Manuel Ley-López, João Paulo Rodrigues Martins, Paweł Chmielarz

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Abstract

Abstract Key message We have examined thermal control for embryo growth and seed germination in European ash. Using historical data (span of 36 years) of embryo index in matured seeds, we showed that maturation is not influenced by the annual average temperature. Secondary dormancy in ash’s seeds is easily induced, and the thermal window for both embryo growth and seed germination was between 10 and 20 °C. Context Seed germination plays a crucial role in establishing plant communities. Ash seeds are characterized by deep morphophysiological dormancy, usually overcome by 32 weeks of stratification. Observed climate changes might disrupt ash’s thermal window for embryo growth and seed germination. Thus, proper examination of seed adaptability can be important for forest management. Aims We investigated the effect of temperature on the embryo index (ratio between embryo and seed length) as well as embryo growth and germination of European ash ( Fraxinus excelsior L.) seeds under different thermal conditions. Methods We used seeds collected at the same site in Poland between 1985 and 2021 to first analyze the influence of the growing season on the initial embryo index in mature seeds. Subsequently, we examined embryo growth and germination of seeds at constant temperatures of 3°, 10°, 15°, 20°, 25°, and 30 °C from seeds collected in 2021. Using the modeled rate of embryo growth and germination, we predicted the cardinal temperatures for those processes in ash seeds. Results The embryo index of ash seeds varied; however, there was no relationship between the index and year of seed collection. The base temperature for embryo growth was 1.4 ± 1.1 °C, with a ceiling temperature of 29.9 ± 2.0 °C and an optimal temperature of 15.7 ± 0.3 °C. The base temperature for germination was at − 1.8 ± 0.3 °C. Due to the induction of secondary dormancy, the ceiling temperature of germination was impossible to establish. Conclusions The initial embryo index of mature ash seeds seems to be an individual trait and was not affected by local average annual temperatures. The most effective temperature ranges for embryo growth and germination were similar, however narrow (between 10 and 15 °C). Temperatures above 20 °C inducted secondary dormancy, hampering embryo growth as well as germination. Such a narrow thermal window for embryo growth can potentially act as a limiting factor for the natural regeneration of ash seeds.

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黄曲霉胚胎生长和种子萌发的限制温度:阈值模型方法

我们研究了热控制对欧洲白蜡树胚胎生长和种子萌发的影响。利用36年的成熟种子胚指数的历史数据，我们发现成熟不受年平均温度的影响。白蜡种子易诱导二次休眠，胚生长和种子萌发的热窗均在10 ~ 20℃之间。种子萌发在植物群落的建立中起着至关重要的作用。白蜡种子的特点是深形态生理休眠，通常克服32周的分层。观测到的气候变化可能会破坏灰树胚胎生长和种子萌发的热窗。因此，对种子适应性进行适当的研究对森林管理具有重要意义。目的研究温度对不同温度条件下欧洲白蜡种子胚指数(胚长与种子长之比)及胚生长和萌发的影响。方法利用1985 ~ 2021年在波兰同一地点采集的种子，首次分析了生长季节对成熟种子初胚指数的影响。随后，我们对2021年收集的种子在3°、10°、15°、20°、25°和30°的恒温条件下的胚胎生长和发芽情况进行了研究。利用模拟的胚胎生长和发芽率，我们预测了白蜡树种子这些过程的基本温度。结果白蜡树种子胚指数差异较大;然而，该指数与种子采集年份之间没有相关性。胚胎生长的基础温度为1.4±1.1℃，上限温度为29.9±2.0℃，最适温度为15.7±0.3℃。萌发的基础温度为−1.8±0.3℃。由于次生休眠的诱导，萌发的顶温无法确定。结论白蜡树成熟种子的初始胚指数是一种个体性状，不受当地年平均气温的影响。胚胎生长和萌发的最有效温度范围相似，但较窄(在10 ~ 15℃之间)。温度高于20°C诱导二次休眠，阻碍胚胎生长和发芽。如此狭窄的胚胎生长热窗可能成为灰树种子自然再生的限制因素。

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来源期刊

Annals of Forest Science 农林科学-林学

CiteScore

6.70

自引率

3.30%

发文量

审稿时长

12-24 weeks

期刊介绍： Annals of Forest Science is an official publication of the French National Institute for Agriculture, Food and Environment (INRAE) -Up-to-date coverage of current developments and trends in forest research and forestry Topics include ecology and ecophysiology, genetics and improvement, tree physiology, wood quality, and silviculture -Formerly known as Annales des Sciences Forestières -Biology of trees and associated organisms (symbionts, pathogens, pests) -Forest dynamics and ecosystem processes under environmental or management drivers (ecology, genetics) -Risks and disturbances affecting forest ecosystems (biology, ecology, economics) -Forestry wood chain (tree breeding, forest management and productivity, ecosystem services, silviculture and plantation management) -Wood sciences (relationships between wood structure and tree functions, and between forest management or environment and wood properties)