Knot soundness and occlusion time after the artificial pruning of oak

Q4 Agricultural and Biological Sciences

USDA Forest Service - Research Papers PNW-RP Pub Date : 2019-03-01 DOI:10.2478/frp-2019-0001

P. Mederski, Dariusz Szczawiński, D. Giefing, Kwiryn Naparty, Mariusz Brunka

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引用次数: 2

Abstract

Abstract Artificial pruning of trees can improve wood quality as well as enhance timber value. Currently, pruning is quite common when veneer timber or plywood is in demand. Cutting off branches, however, creates open wounds in the form of knots, which are exposed to infections. While the pruning of coniferous trees is well-studied, less research has been conducted on broadleaved trees. The objective of this study was to determine 1) if the artificial pruning of oak can lead to decaying knots, 2) if so, how big is the decaying zone around the unsound knot, and 3) how much time is needed for full knot occlusion after artificial pruning. 13- and 16-year-old oak trees located in northern Poland (Lidzbark Forest District) were choosen for this study. Ten years after pruning, sample trees were selected in order to determine if the knots were sound and how many years it had taken for each knot to occlude. The results were compared with those of knots on trees caused by natural pruning. In total, 419 and 104 knots resulting from artificial and natural pruning, respectively, were analysed. It was found that 95% of the artificially pruned knots had very little decay, showing an average of 1.13 cm of unsound knot zone. On the naturally pruned control trees, 98% of the knots were unsound with nearly double the amount of knot decay zone. Additionally, the artificially pruned knots needed less than five years to overgrow, while it took over eleven years for the naturally pruned knots to occlude. Therefore, pruning oak trees is recommended, even though a very small decay zone may appear on the knots, because it takes half the time for these artificial knots to occlude in comparison to unpruned trees.

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人工修剪后栎树的结实度和咬合时间

摘要人工修剪树木可以改善木材质量，提高木材价值。目前，当贴面木材或胶合板有需求时，修剪是相当普遍的。然而，砍掉树枝会造成结状的开放性伤口，容易受到感染。虽然针叶树的修剪研究得很好，但对阔叶树的修剪研究较少。本研究的目的是确定1)橡树的人工修剪是否会导致腐烂的结，2)如果是，不健全的结周围的腐烂区有多大，以及3)人工修剪后需要多少时间才能完全清除结。13岁和16岁的橡树位于波兰北部(利兹巴克林区)被选择用于这项研究。修剪十年后，选择样本树，以确定结是否完好，以及每个结闭合需要多少年。结果与自然修剪引起的树木结进行了比较。总共分析了人工修剪和自然修剪产生的419和104个结。结果表明，95%的人工修剪后的结几乎没有腐烂，平均有1.13 cm的不健全结区。在自然修剪的对照树上，98%的结是不健全的，结腐烂区数量几乎增加了一倍。此外，人工修剪的结需要不到五年的时间就会过度生长，而自然修剪的结需要超过11年的时间才能闭合。因此，建议修剪橡树，即使结上可能出现很小的腐烂区，因为与未修剪的树木相比，这些人工结需要一半的时间来遮挡。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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USDA Forest Service - Research Papers PNW-RP Agricultural and Biological Sciences-Forestry

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