4.7 Article

The Effect of Stand Density, Biodiversity, and Spatial Structure on Stand Basal Area Increment in Natural Spruce-Fir-Broadleaf Mixed Forests

期刊

FORESTS
卷 13, 期 2, 页码 -

出版社

MDPI
DOI: 10.3390/f13020162

关键词

spatial structure parameters; stand density; biodiversity; random forests; BAI model

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资金

  1. Thirteenth Five-year Plan Pioneering project of the High Technology Plan of the National Department of Technology [2017YFC0504101]

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This study used the random-forest algorithm to investigate the relationship between basal area increment (BAI) of forest trees and stand density, biodiversity, and stand spatial structure. The results showed that stand density was the most important predictor for BAI, indicating that tree growth is primarily restricted by competition. The study also found a positive correlation between BAI and species biodiversity. Additionally, spatial structure factors were found to be important for tree growth in mixed forests.
Forest trees exhibit a large variation in the basal area increment (BAI), and the variation is attributed to the stand density, biodiversity, and stand spatial structure. Studying and quantifying the effect of these above variables on tree growth is vital for future forest management. However, the stand spatial structure based on neighboring trees has rarely been considered, especially in the mixed forests. This study adopted the random-forest (RF) algorithm to model and interpret BAI based on stand density, biodiversity, and spatial structure. Fourteen independent variables, including two stand density predictors, four biodiversity predictors, and eight spatial structure predictors, were evaluated. The RF model was trained for the whole stand, three tree species groups (gap, neutral, and shade_tolerant), and two tree species (spruce and fir). A 10-fold blocked cross-validation was then used to optimize the hyper-parameters and evaluate the models. The squared correlation coefficients (R-2) for the six groups were 0.233 for the whole stand, 0.575 for fir, 0.609 for shade_tolerant, 0.622 for neutral, 0.722 for gap, and 0.730 for spruce. The Stand Density Index (SDI) was the most-important predictor, suggesting that BAI is primarily restricted by competition. BAI and species biodiversity were positively correlated for the whole stand. The stands were expected to be randomly distributed based on the relationship between the uniform angle index (W) and growth. The relationship between dominance (U) and BAI indicated that small trees should be planted around the light-demanding tree species and vice versa. Of note, these findings emphasize the need to consider the three types of variables in mixed forests, especially the spatial structure factors. This study may help make significant advances in species composition, spatial arrangement, and the sustainable development of mixed forests.

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