Enhanced awareness of height-diameter allometry in response to climate, soil, and competition in secondary forests

•Pairwise and higher-order interactions of stressors notably modulated tree height.•Influential direction of one stressor varied with the gradients of other stressors.•Independent and interactive effects of stressors were greatest in large and medium trees.•Stand density moderated tree height in the...

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Published inForest ecology and management Vol. 548; p. 121386
Main Authors Wang, Junjie, Wang, Youzhu, Zhang, Zipeng, Wang, Weifang, Jiang, Lichun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.11.2023
Subjects
allometry
carbon
climate
Climate change
Coarse fragments
cost effectiveness
decision making
Ecological insights
forest ecology
forest management
Higher-order interactions
Inconstant direction
interspecific competition
intraspecific competition
issues and policy
Secondary forests management
soil
temperature
tree height
trees
Climate change
Coarse fragments
Ecological insights
Inconstant direction
Higher-order interactions
Secondary forests management
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Abstract •Pairwise and higher-order interactions of stressors notably modulated tree height.•Influential direction of one stressor varied with the gradients of other stressors.•Independent and interactive effects of stressors were greatest in large and medium trees.•Stand density moderated tree height in the same climatic and soil environments. The allometry between tree height (H) and diameter (DBH) is a central part of accurate carbon estimation and forest ecological evaluation. However, our awareness of the H-DBH allometry response to stressors is incomplete. For instance, pairwise and higher-order interactions of climate, soil, intraspecific competition, and interspecific competition were ignored, which may have led to important ecological insights not explored in H-DBH allometry. Besides, although secondary forests are cost-friendly mitigation tools requiring rational management, research on H-DBH allometry and management of secondary forests is far from adequate. Therefore, we pioneered the consideration of pairwise and higher-order interactions of competition, climate, and soil to enhance awareness of the relationship between stressors and H-DBH allometry. Moreover, H-DBH simulations under different competitive combinations were provided based on the actual local environmental levels, with the aim of providing targeted recommendations for secondary forests. The results showed that MAT (mean annual temperature), CF (coarse fragments), intraspecific BAL (the basal area of trees larger than the subject tree), and interspecific BAL were dominant stressors. The pairwise, third-, and fourth-order interactions significantly affected and improved the H-DBH model. The interactions affected H more than independent effects at times, and higher-order interactions produced comparable contributions to pairwise interactions. The independent and interactive effects of stressors on H were greatest in medium- and large-sized trees, which suggested sampling medium- and large-sized trees could reduce cost. Furthermore, the influencing directions of stressors on H were inconstant and depended on the gradients of other stressors due to the presence of interactions, which is generally consistent with the pressure gradient hypothesis and ecological laws. The simulation results indicated that the desired H-DBH allometry could be obtained by adjusting BALinter and BALintra according to the actual environmental level and management objectives of each stand. This study highlights the importance of considering interactions in credible H-DBH modeling, stressor impact analysis, and forest management policy development. Given the likelihood of ongoing climate change in the future, this study will assist in promoting sustainable management and informed decision-making in secondary forests.
AbstractList The allometry between tree height (H) and diameter (DBH) is a central part of accurate carbon estimation and forest ecological evaluation. However, our awareness of the H-DBH allometry response to stressors is incomplete. For instance, pairwise and higher-order interactions of climate, soil, intraspecific competition, and interspecific competition were ignored, which may have led to important ecological insights not explored in H-DBH allometry. Besides, although secondary forests are cost-friendly mitigation tools requiring rational management, research on H-DBH allometry and management of secondary forests is far from adequate. Therefore, we pioneered the consideration of pairwise and higher-order interactions of competition, climate, and soil to enhance awareness of the relationship between stressors and H-DBH allometry. Moreover, H-DBH simulations under different competitive combinations were provided based on the actual local environmental levels, with the aim of providing targeted recommendations for secondary forests. The results showed that MAT (mean annual temperature), CF (coarse fragments), intraspecific BAL (the basal area of trees larger than the subject tree), and interspecific BAL were dominant stressors. The pairwise, third-, and fourth-order interactions significantly affected and improved the H-DBH model. The interactions affected H more than independent effects at times, and higher-order interactions produced comparable contributions to pairwise interactions. The independent and interactive effects of stressors on H were greatest in medium- and large-sized trees, which suggested sampling medium- and large-sized trees could reduce cost. Furthermore, the influencing directions of stressors on H were inconstant and depended on the gradients of other stressors due to the presence of interactions, which is generally consistent with the pressure gradient hypothesis and ecological laws. The simulation results indicated that the desired H-DBH allometry could be obtained by adjusting BALinter and BALintra according to the actual environmental level and management objectives of each stand. This study highlights the importance of considering interactions in credible H-DBH modeling, stressor impact analysis, and forest management policy development. Given the likelihood of ongoing climate change in the future, this study will assist in promoting sustainable management and informed decision-making in secondary forests.
•Pairwise and higher-order interactions of stressors notably modulated tree height.•Influential direction of one stressor varied with the gradients of other stressors.•Independent and interactive effects of stressors were greatest in large and medium trees.•Stand density moderated tree height in the same climatic and soil environments. The allometry between tree height (H) and diameter (DBH) is a central part of accurate carbon estimation and forest ecological evaluation. However, our awareness of the H-DBH allometry response to stressors is incomplete. For instance, pairwise and higher-order interactions of climate, soil, intraspecific competition, and interspecific competition were ignored, which may have led to important ecological insights not explored in H-DBH allometry. Besides, although secondary forests are cost-friendly mitigation tools requiring rational management, research on H-DBH allometry and management of secondary forests is far from adequate. Therefore, we pioneered the consideration of pairwise and higher-order interactions of competition, climate, and soil to enhance awareness of the relationship between stressors and H-DBH allometry. Moreover, H-DBH simulations under different competitive combinations were provided based on the actual local environmental levels, with the aim of providing targeted recommendations for secondary forests. The results showed that MAT (mean annual temperature), CF (coarse fragments), intraspecific BAL (the basal area of trees larger than the subject tree), and interspecific BAL were dominant stressors. The pairwise, third-, and fourth-order interactions significantly affected and improved the H-DBH model. The interactions affected H more than independent effects at times, and higher-order interactions produced comparable contributions to pairwise interactions. The independent and interactive effects of stressors on H were greatest in medium- and large-sized trees, which suggested sampling medium- and large-sized trees could reduce cost. Furthermore, the influencing directions of stressors on H were inconstant and depended on the gradients of other stressors due to the presence of interactions, which is generally consistent with the pressure gradient hypothesis and ecological laws. The simulation results indicated that the desired H-DBH allometry could be obtained by adjusting BALinter and BALintra according to the actual environmental level and management objectives of each stand. This study highlights the importance of considering interactions in credible H-DBH modeling, stressor impact analysis, and forest management policy development. Given the likelihood of ongoing climate change in the future, this study will assist in promoting sustainable management and informed decision-making in secondary forests.
ArticleNumber 121386
Author Zhang, Zipeng
Wang, Youzhu
Wang, Junjie
Wang, Weifang
Jiang, Lichun
Author_xml – sequence: 1
  givenname: Junjie
  orcidid: 0000-0002-1856-7772
  surname: Wang
  fullname: Wang, Junjie
  organization: Department of Forest Management, School of Forestry, Northeast Forestry University, Harbin 150040, China
– sequence: 2
  givenname: Youzhu
  surname: Wang
  fullname: Wang, Youzhu
  organization: Department of Forest Management, School of Forestry, Northeast Forestry University, Harbin 150040, China
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  givenname: Zipeng
  surname: Zhang
  fullname: Zhang, Zipeng
  organization: Department of Forest Management, School of Forestry, Northeast Forestry University, Harbin 150040, China
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  givenname: Weifang
  surname: Wang
  fullname: Wang, Weifang
  email: weifangwang@126.com
  organization: Department of Forest Management, School of Forestry, Northeast Forestry University, Harbin 150040, China
– sequence: 5
  givenname: Lichun
  surname: Jiang
  fullname: Jiang, Lichun
  email: jlcnefu@126.com
  organization: Department of Forest Management, School of Forestry, Northeast Forestry University, Harbin 150040, China
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Coarse fragments
Ecological insights
Inconstant direction
Higher-order interactions
Secondary forests management
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Snippet •Pairwise and higher-order interactions of stressors notably modulated tree height.•Influential direction of one stressor varied with the gradients of other...
The allometry between tree height (H) and diameter (DBH) is a central part of accurate carbon estimation and forest ecological evaluation. However, our...
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StartPage 121386
SubjectTerms allometry
carbon
climate
Climate change
Coarse fragments
cost effectiveness
decision making
Ecological insights
forest ecology
forest management
Higher-order interactions
Inconstant direction
interspecific competition
intraspecific competition
issues and policy
Secondary forests management
soil
temperature
tree height
trees
Title Enhanced awareness of height-diameter allometry in response to climate, soil, and competition in secondary forests
URI https://dx.doi.org/10.1016/j.foreco.2023.121386
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