Optimizing forest spatial structure with neighborhood-based indices: Four case studies from Northeast China

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Abstract

The fine-scale spatial patterns of trees and their interactions are of paramount importance for controlling the structure and function of forest ecosystems; however, few management techniques can be employed to adjust the structural characteristics of uneven-aged mixed forests. This research provides an accurate, efficient, and impersonal comprehensive thinning index (P-index) for selecting candidate harvesting trees; the index was proposed by weighting the commonly used quantitative indices with respect to stand fine-scale structures, competition status, tree vigor, and tree stability. The applications of the proposed P-index in evaluating and simulating the process of thinning operations were examined using four 1-ha mapped plots with different forest types, namely, natural secondary forest, natural pine-broadleaved mixed forest, natural larch-birch mixed forest, and natural oak forest, which were widely distributed across the Heilongjiang Province in Northeast China. The results indicated that the proposed P-index could effectively affect the structural differentiations between different forest types and alternative thinning intensities. The marginal benefits of alternative thinning intensities on the integrated forest structure indicated that removing 10% of the trees from the plots might be the optimal thinning intensity from the perspective of optimizing stand structure, in which the P-index values could be increased by approximately 5%-11% for the four tested plots. The main conclusion from This paper was that the proposed P-index could be used as a quantitative tool to manage uneven-aged mixed forests.

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Dong, L., Wei, H., & Liu, Z. (2020). Optimizing forest spatial structure with neighborhood-based indices: Four case studies from Northeast China. Forests, 11(4). https://doi.org/10.3390/F11040413

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