Evaluating Forest Site Quality Using the Biomass Potential Productivity Approach

IF 2.4 2区 农林科学 Q1 FORESTRY
Forests Pub Date : 2023-12-21 DOI:10.3390/f15010023
Xingrong Yan, Linyan Feng, Ram P. Sharma, Guangshuang Duan, Lifeng Pang, Liyong Fu, Jinping Guo
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Abstract

Biomass productivity is of great significance for the evaluation of forest quality, which is important for the improvement of forest management. We propose the computational methods of biomass potential productivity (BPP) and biomass realistic productivity (BRP), both of which provide reliable practical guides for predicting forest growth under multi-aged, multi-species, and multi-layered canopy conditions. We used 2222 national forest inventory plots that were measured in four consecutive periods in the Jilin Province for this purpose. We analyzed and verified the computational methods of BPP based on the BRP and evaluated its practical significance. The results showed that growth models of the stand height, stand basal area, and stand biomass of four forest types (pure larch forest, larch broadleaf mixed forest, Mongolian oak pure forest, and Mongolian oak broadleaf mixed forest) fit adequately, BPP was greater than BRP, and this difference decreased with an increasing stand age, suggesting that the potential productivity of the middle-aged and young forest was higher than that of the mature forest, although the difference is minimal. In addition, the realistic productivity of stands with better site quality was close to the potential productivity, which is consistent with the biological significance of the potential productivity of the biomass. The degree of difference between the potential productivity of the biomass and the realistic productivity of biomass also decreases with the decline in site quality, and it can be termed as the potentially improved stand biomass. The BPP model was able to perform well in both the pure and mixed forests. The BRP not only verifies the rationality of the BPP but can be also used to quantify the forest site quality, which is helpful for evaluating forest growth and informed decision making in forestry.
使用生物质潜在生产力方法评估林地质量
生物质生产力对于评价森林质量具有重要意义,对改善森林管理也很重要。我们提出了生物质潜在生产力(BPP)和生物质现实生产力(BRP)的计算方法,这两种方法为预测多树龄、多树种和多层冠层条件下的森林生长提供了可靠的实用指南。为此,我们使用了吉林省连续四个时期测定的 2222 块国家森林资源清查地块。我们分析和验证了基于 BRP 的 BPP 计算方法,并评估了其实际意义。结果表明,四种森林类型(落叶松纯林、落叶松阔叶混交林、蒙古栎纯林和蒙古栎阔叶混交林)的林分高度、林分基部面积和林分生物量的生长模型拟合充分,BPP 大于 BRP,且这一差异随着林分年龄的增加而减小,表明中幼龄林的潜在生产力高于成熟林,尽管差异很小。此外,立地质量较好的林分的现实生产力接近潜在生产力,这与生物质潜在生产力的生物学意义是一致的。生物质潜在生产力与生物质现实生产力之间的差异程度也随着林地质量的下降而减小,可称为林分生物质潜在改良生产力。BPP 模型在纯林和混交林中均表现良好。BRP不仅验证了BPP的合理性,还可用于量化林地质量,有助于评估森林生长和林业决策。
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来源期刊
Forests
Forests FORESTRY-
CiteScore
4.40
自引率
17.20%
发文量
1823
审稿时长
19.02 days
期刊介绍: Forests (ISSN 1999-4907) is an international and cross-disciplinary scholarly journal of forestry and forest ecology. It publishes research papers, short communications and review papers. There is no restriction on the length of the papers. Our aim is to encourage scientists to publish their experimental and theoretical research in as much detail as possible. Full experimental and/or methodical details must be provided for research articles.
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