Frontiers in Plant Science (Mar 2023)

Two-level mixed-effects height to crown base model for moso bamboo (Phyllostachys edulis) in Eastern China

  • Xiao Zhou,
  • Xiao Zhou,
  • Yang Zhou,
  • Yang Zhou,
  • Xuan Zhang,
  • Xuan Zhang,
  • Ram P. Sharma,
  • Fengying Guan,
  • Fengying Guan,
  • Shaohui Fan,
  • Guanglu Liu

DOI
https://doi.org/10.3389/fpls.2023.1095126
Journal volume & issue
Vol. 14

Abstract

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Height to crown base (HCB) is an important predictor variable for forest growth and yield models and is of great significance for bamboo stem utilization. However, existing HCB models built so far on the hierarchically structured data are for arbor forests, and not applied to bamboo forests. Based on the fitting of data acquired from 38 temporary sample plots of Phyllostachys edulis forests in Yixing, Jiangsu Province, we selected the best HCB model (logistic model) from among six basic models and extended it by integrating predictor variables, which involved evaluating the impact of 13 variables on HCB. Block- and sample plot-level random effects were introduced to the extended model to account for nested data structures through mixed-effects modeling. The results showed that bamboo height, diameter at breast height, total basal area of all bamboo individuals with a diameter larger than that of the subject bamboo, and canopy density contributed significantly more to variation in HCB than other variables did. Introducing two-level random effects resulted in a significant improvement in the accuracy of the model. Different sampling strategies were evaluated for response calibration (model localization), and the optimal strategy was identified. The prediction accuracy of the HCB model was substantially improved, with an increase in the number of bamboo samples in the calibration. Based on our findings, we recommend the use of four randomly selected bamboo individuals per sample to provide a compromise between measurement cost, model use efficiency, and prediction accuracy.

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