Seasonal changes in the width and structure of non-collapsed phloem affect the assessment of its potential conducting efficiency

IF 1.4 3区 农林科学 Q2 FORESTRY IAWA Journal Pub Date : 2022-03-09 DOI:10.1163/22941932-bja10084
J. Gričar, P. Prislan
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引用次数: 1

Abstract

Quantitative phloem anatomy is increasingly used in dendroecological studies since recent evidence shows that phloem traits are a valuable indicator of the morphological and physiological strategies of tree performance in different environments. To better understand intra-annual variations in non-collapsed phloem (NCPH) width and structure in three temperate species (Picea abies, Fagus sylvatica, and Quercus petraea), we investigated phloem samples repeatedly taken during the growing season, using light microscopy. The diameter and area of sieve elements were measured in early and late phloem to estimate their conducting potential. The seasonal dynamics of phloem formation and the collapse of sieve elements significantly affect the structure and width of the NCPH. In combination with sieve element characteristics, they determine the conducting potential of the NCPH, which is not constant throughout the growing season. Although the three species differed in terms of wood porosity, the seasonal structural variations of the NCPH followed a similar pattern. At the onset of the growing season, the phloem increment of the previous year was crucial for the function and accounted for over 80% of the NCPH, whereas at the end of the growing season, the phloem increment of the current year constituted the majority of the NCPH. These results indicate that sampling time should be considered when comparing quantitative phloem anatomy data from different laboratories, indicating the need for a uniform sampling protocol and methodology. Otherwise, the assessment of the conducting potential of phloem sieve elements is difficult to compare.
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非萎陷韧皮部宽度和结构的季节变化影响其潜在导通效率的评价
近年来有证据表明,韧皮部特征是树木在不同环境下表现的形态和生理策略的一个有价值的指标,因此韧皮部定量解剖越来越多地应用于树木生态学研究中。为了更好地了解三种温带树种(云杉、山毛榉和栎)非折叠韧皮部宽度和结构的年内变化,我们利用光学显微镜对生长季节反复采集的韧皮部样本进行了研究。测定了韧皮部早期和晚期筛元的直径和面积,以估计其导电势。韧皮部形成的季节动态和筛元的崩塌对NCPH的结构和宽度有显著影响。结合筛元特性,它们确定了NCPH的导电电位,该电位在整个生长季节不是恒定的。虽然3种木材的孔隙率不同,但NCPH的季节性结构变化遵循相似的模式。在生长季节开始时,前一年的韧皮部增量对NCPH的作用至关重要,占80%以上,而在生长季节结束时,当年的韧皮部增量占NCPH的大部分。这些结果表明,在比较不同实验室的定量韧皮部解剖数据时,应考虑采样时间,这表明需要统一的采样方案和方法。否则,对韧皮部筛元导电势的评价难以比较。
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来源期刊
IAWA Journal
IAWA Journal 农林科学-林学
CiteScore
3.40
自引率
15.80%
发文量
26
审稿时长
>36 weeks
期刊介绍: The IAWA Journal is the only international periodical fully devoted to structure, function, identification and utilisation of wood and bark in trees, shrubs, lianas, palms, bamboo and herbs. Many papers are of a multidisciplinary nature, linking
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