Effect of Tree Size Heterogeneity on the Overall Growth Trend of Trees in Coniferous Forests of the Tibetan Plateau

Tree growth is under the combined influence of abiotic and biotic factors. Trees with different sizes may respond differently to these factors, implying that tree size heterogeneity may also modulate the overall growth trend. To test this hypothesis, we focused on the radial growth trends of natural...

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Published inForests Vol. 14; no. 7; p. 1483
Main Authors Wang, Yuelin, Shu, Shumiao, Wang, Xiaodan, Chen, Wende
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2023
Subjects
Age
Biotic factors
China
Climate change
Coniferous forests
Deforestation
Environmental aspects
Forecasts and trends
Forests
Growing season
Growth models
Growth rate
growth rings
Heterogeneity
Immunoglobulin M
Indicators
Iterative methods
Metabolism
Mountains
Plant growth
Properties
Respiration
Subalpine environments
temperature
tree growth
Tree rings
Treeline
Trees
Trends
Variability
Wind
China
Hengduan Mountains
Tibetan Plateau
Online AccessGet full text
ISSN1999-4907
1999-4907
DOI10.3390/f14071483

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Abstract Tree growth is under the combined influence of abiotic and biotic factors. Trees with different sizes may respond differently to these factors, implying that tree size heterogeneity may also modulate the overall growth trend. To test this hypothesis, we focused on the radial growth trends of natural subalpine forests on the Tibetan Plateau. We first extended the iterative growth model (IGM) to the tree ring scale (IGMR) to test the applicability of the generalized metabolic growth theory to tree growth. As predicted by the IGMR, the radial growth of trees at the aggregate scale is constrained by a unimodal pattern. Using the IGMR, we reconstructed the historical best growth trajectory (HBGT) of trees within the same community based on the tree with the largest radius and/or longest age in the community. From the average difference between the HBGT and the current radial growth rate of trees with different sizes, we constructed an indicator that can measure the overall variation in tree radial growth. Based on this indicator, we found a negative effect of tree size heterogeneity on the overall variability of tree growth across elevations. Further analysis also revealed that the radial growth rate of trees on the Tibetan Plateau has increased significantly compared to the past, where the growing season average temperature and annual minimum temperature were negatively and positively correlated with tree growth below and above the treeline, respectively. Our study not only confirmed that the overall variability of tree growth depends on tree size heterogeneity but also proposed an indicator that reveals net changes in the tree radial growth rate relative to the past. These theoretical advances are highly beneficial for understanding changes in the extent of subalpine forests.
AbstractList Tree growth is under the combined influence of abiotic and biotic factors. Trees with different sizes may respond differently to these factors, implying that tree size heterogeneity may also modulate the overall growth trend. To test this hypothesis, we focused on the radial growth trends of natural subalpine forests on the Tibetan Plateau. We first extended the iterative growth model (IGM) to the tree ring scale (IGMR) to test the applicability of the generalized metabolic growth theory to tree growth. As predicted by the IGMR, the radial growth of trees at the aggregate scale is constrained by a unimodal pattern. Using the IGMR, we reconstructed the historical best growth trajectory (HBGT) of trees within the same community based on the tree with the largest radius and/or longest age in the community. From the average difference between the HBGT and the current radial growth rate of trees with different sizes, we constructed an indicator that can measure the overall variation in tree radial growth. Based on this indicator, we found a negative effect of tree size heterogeneity on the overall variability of tree growth across elevations. Further analysis also revealed that the radial growth rate of trees on the Tibetan Plateau has increased significantly compared to the past, where the growing season average temperature and annual minimum temperature were negatively and positively correlated with tree growth below and above the treeline, respectively. Our study not only confirmed that the overall variability of tree growth depends on tree size heterogeneity but also proposed an indicator that reveals net changes in the tree radial growth rate relative to the past. These theoretical advances are highly beneficial for understanding changes in the extent of subalpine forests.
Audience Academic
Author Shu, Shumiao
Wang, Yuelin
Wang, Xiaodan
Chen, Wende
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CitedBy_id crossref_primary_10_1016_j_agrformet_2024_110300
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Snippet Tree growth is under the combined influence of abiotic and biotic factors. Trees with different sizes may respond differently to these factors, implying that...
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SubjectTerms Age
Biotic factors
China
Climate change
Coniferous forests
Deforestation
Environmental aspects
Forecasts and trends
Forests
Growing season
Growth models
Growth rate
growth rings
Heterogeneity
Immunoglobulin M
Indicators
Iterative methods
Metabolism
Mountains
Plant growth
Properties
Respiration
Subalpine environments
temperature
tree growth
Tree rings
Treeline
Trees
Trends
Variability
Wind
Title Effect of Tree Size Heterogeneity on the Overall Growth Trend of Trees in Coniferous Forests of the Tibetan Plateau
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Volume 14
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