Spatiotemporal variation of bark pH on the bole of a mature Cryptomeria japonica D. Don (Japanese cedar) tree

IF 2.1 3区 农林科学 Q2 FORESTRY Trees Pub Date : 2024-03-27 DOI:10.1007/s00468-024-02498-6
Desmond C. C. Teh, Delphis F. Levia, Taro Nakai
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Key Message

The agar–agar panel method identified circumferential, vertical, and temporal variations in the bark pH of a Japanese cedar tree in detail, including high-resolution distribution reflecting the bark’s microrelief.

Abstract

The morphology of bark surfaces is heterogeneous on any given tree, especially rough-barked trees, often changing along a vertical gradient from top to bottom and circumferentially. This study sought to better understand the intricacies of the spatiotemporal changes of bark pH distribution on the bole of a mature Cryptomeria japonica D. Don (Japanese cedar) tree in Taiwan by using agar–agar panels. Agar–agar panels were positioned at the four cardinal directions at seven different heights along the tree bole on six separate sampling dates (\(n = 134\)) to study the temporal variation of bark pH, while an additional 48.5 agar–agar panels were arranged radially at three tree heights (in zones 2 (30 m), 4 (20 m), and 7 (5 m)) to study the circumferential variation of bark pH. The changes in bark pH were found to vary across time, direction, height, and circumferential position, presumably due to the abiotic factors (e.g., fog) prior to sampling as well as changes in bark morphological patterns around the tree bole. This study demonstrates the highly dynamic temporal and spatial variability of bark pH. In particular, bark pH was found to be lower in the furrows as compared to the bark ridges, albeit with differing pH at different times. Future work should couple the use of agar–agar panels with mathematical modeling to quantify the interrelationships among bark morphology, bark pH, solute leaching, and mass flux along the complex network of interconnected furrows and ridges of tree stems.

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日本雪松成熟树干上树皮酸碱度的时空变化
关键信息琼脂-琼脂板法详细鉴定了日本杉树树皮pH值的周向、垂直和时间变化,包括反映树皮微凹凸的高分辨率分布。摘要任何树木的树皮表面形态都是异质的,尤其是粗糙树皮的树木,通常沿着从上到下的垂直梯度和周向变化。本研究试图通过使用琼脂琼脂板,更好地了解台湾一棵成熟的日本杉树树干上树皮 pH 分布时空变化的复杂性。在6个不同的采样日期(n = 134),在树干7个不同高度的4个主要方向上放置琼脂琼脂板,研究树皮pH值的时间变化;在3个树干高度(2区(30米)、4区(20米)和7区(5米))径向布置48.5块琼脂琼脂板,研究树皮pH值的周向变化。研究发现,树皮 pH 值的变化随时间、方向、高度和圆周位置的变化而变化,这可能是由于采样前的非生物因素(如雾)以及树干周围树皮形态模式的变化造成的。这项研究证明了树皮 pH 值在时间和空间上的高度动态变化。特别是,与树皮脊相比,树皮沟的树皮 pH 值较低,尽管不同时间的 pH 值不同。未来的工作应将琼脂-琼脂板的使用与数学建模结合起来,以量化树皮形态、树皮 pH 值、溶质沥滤以及树干沟壑和树脊相互连接的复杂网络中的质量通量之间的相互关系。
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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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