Assessing the mechanical stability of trees in artificial plantations of Pinus nigra J. F. Arnold using the LWN tool under different site indexes

M. Marchi, U. Chiavetta, P. Cantiani
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引用次数: 14

Abstract

In young black pine plantations, the most valuable and interesting thinning scheme is mainly based on the positive selection of dominant and well-shaped trees to be candidates for carbon sequestration, timber production and natural regeneration. The mechanical stability of candidate trees is here a fundamental skill that must be taken into account and the slenderness ratio (HD) is one of the main indicators. HD has been recently proved to be correlated to the living whorl number (LWN) by Cantiani & Chiavetta (2015). In this study, the statistical model was re-calibrated in order to study the influence of soil fertility on the HD - Living whorls number (LWN) relationship. The fertility-balanced models estimated a different LWN threshold. The model for the highest fertility class (Site index 24) estimated 12 LWN (RMSE of 20%). Similarly, a lower value were detected for the other two fertility classes, SI20 and SI16, where 10 LWN were considered enough with an associated RMSE of 16% and 17% respectively. Compared to the general model provided by Cantiani & Chiavetta (11 LWN with 18% of RMSE) the site index approach improved the accuracy and reliability.
用LWN工具评估不同场地指数下黑松人工林树木的力学稳定性
在年轻的黑松种植园中,最有价值和最有趣的疏伐方案主要基于积极选择优势和形状良好的树木作为碳封存、木材生产和自然再生的候选树木。候选树木的机械稳定性是一项必须考虑的基本技能,长细比(HD)是主要指标之一。Cantiani&Chiavetta(2015)最近证明HD与活螺纹数(LWN)相关。在本研究中,为了研究土壤肥力对HD-活螺纹数(LWN)关系的影响,重新校准了统计模型。生育率平衡模型估计了不同的LWN阈值。最高生育率等级(站点指数24)的模型估计为12 LWN(RMSE为20%)。同样,其他两个生育率类别,即SI20和SI16的值也较低,其中10个LWN被认为足够了,相关的RMSE分别为16%和17%。与Cantiani&Chiavetta提供的一般模型(11 LWN,RMSE为18%)相比,现场指数方法提高了准确性和可靠性。
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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来源期刊
Annals of Silvicultural Research
Annals of Silvicultural Research Agricultural and Biological Sciences-Forestry
CiteScore
2.70
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0.00%
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