The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters

The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters

Forest productivity (increment of above-ground biomass) is determined by biodiversity but also by stand structure attributes. However, the relative strengths of these drivers in determining productivity remain controversial in subtropical forests. In this study, we analyzed a tree growth data from 5...

Full description

Bibliographic Details
Main Authors: Siyuan Ren, Qingsong Yang, Heming Liu, Guochun Shen, Zemei Zheng, Shuangshuang Zhou, Mengfang Liang, Huimin Yin, Zhengkang Zhou, Xihua Wang
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Forests
Subjects:
species diversity
stand structure
tree size diversity
initial above-ground biomass
forest productivity
niche complementarity hypothesis
Online Access:https://www.mdpi.com/1999-4907/12/8/998
id doaj-3425c2f920934dd9b9486c9f964d9470
record_format Article
spelling doaj-3425c2f920934dd9b9486c9f964d94702021-08-26T13:45:54ZengMDPI AGForests1999-49072021-07-011299899810.3390/f12080998The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure MattersSiyuan Ren0Qingsong Yang1Heming Liu2Guochun Shen3Zemei Zheng4Shuangshuang Zhou5Mengfang Liang6Huimin Yin7Zhengkang Zhou8Xihua Wang9Tiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaTiantong National Station for Forest Ecosystem Research, School of Ecological and Environmental Sciences, East China Normal University, Shanghai 200241, ChinaForest productivity (increment of above-ground biomass) is determined by biodiversity but also by stand structure attributes. However, the relative strengths of these drivers in determining productivity remain controversial in subtropical forests. In this study, we analyzed a tree growth data from 500 plots with in a 20 ha mature subtropical forest in eastern China. We used spatial simultaneous autoregressive error models to examine the effects of diversity variables (species richness, evenness, and composition), stand structural attributes (stand density, tree size range and diversity), environmental factors (topography and soil), and initial above-ground biomass (AGB) on productivity. We also applied structural equation models to quantify the relative importance of diversity, stand structure, environmental factors, and initial AGB in determining forest productivity. Our results showed that stand structure together with diversity and initial AGB governed forest productivity. Tree size diversity (DBH Shannon’s diversity index) had the largest positive effect on forest productivity. These results provide new evidence that structural explanatory variables have greater contributions to productivity for mature subtropical forests, strongly supporting the niche complementarity hypothesis. Our work highlights the importance of tree size diversity in promoting high forest productivity, and suggests that regulating and conserving complexity of forest stand structure should be among the most important goals in subtropical forest management.https://www.mdpi.com/1999-4907/12/8/998species diversitystand structuretree size diversityinitial above-ground biomassforest productivityniche complementarity hypothesis
collection DOAJ
language English
format Article
sources DOAJ
author Siyuan Ren
Qingsong Yang
Heming Liu
Guochun Shen
Zemei Zheng
Shuangshuang Zhou
Mengfang Liang
Huimin Yin
Zhengkang Zhou
Xihua Wang
spellingShingle Siyuan Ren
Qingsong Yang
Heming Liu
Guochun Shen
Zemei Zheng
Shuangshuang Zhou
Mengfang Liang
Huimin Yin
Zhengkang Zhou
Xihua Wang
The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters
Forests
species diversity
stand structure
tree size diversity
initial above-ground biomass
forest productivity
niche complementarity hypothesis
author_facet Siyuan Ren
Qingsong Yang
Heming Liu
Guochun Shen
Zemei Zheng
Shuangshuang Zhou
Mengfang Liang
Huimin Yin
Zhengkang Zhou
Xihua Wang
author_sort Siyuan Ren
title The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters
title_short The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters
title_full The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters
title_fullStr The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters
title_full_unstemmed The Driving Factors of Subtropical Mature Forest Productivity: Stand Structure Matters
title_sort driving factors of subtropical mature forest productivity: stand structure matters
publisher MDPI AG
series Forests
issn 1999-4907
publishDate 2021-07-01
description Forest productivity (increment of above-ground biomass) is determined by biodiversity but also by stand structure attributes. However, the relative strengths of these drivers in determining productivity remain controversial in subtropical forests. In this study, we analyzed a tree growth data from 500 plots with in a 20 ha mature subtropical forest in eastern China. We used spatial simultaneous autoregressive error models to examine the effects of diversity variables (species richness, evenness, and composition), stand structural attributes (stand density, tree size range and diversity), environmental factors (topography and soil), and initial above-ground biomass (AGB) on productivity. We also applied structural equation models to quantify the relative importance of diversity, stand structure, environmental factors, and initial AGB in determining forest productivity. Our results showed that stand structure together with diversity and initial AGB governed forest productivity. Tree size diversity (DBH Shannon’s diversity index) had the largest positive effect on forest productivity. These results provide new evidence that structural explanatory variables have greater contributions to productivity for mature subtropical forests, strongly supporting the niche complementarity hypothesis. Our work highlights the importance of tree size diversity in promoting high forest productivity, and suggests that regulating and conserving complexity of forest stand structure should be among the most important goals in subtropical forest management.
topic species diversity
stand structure
tree size diversity
initial above-ground biomass
forest productivity
niche complementarity hypothesis
url https://www.mdpi.com/1999-4907/12/8/998
work_keys_str_mv AT siyuanren thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT qingsongyang thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT hemingliu thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT guochunshen thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT zemeizheng thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT shuangshuangzhou thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT mengfangliang thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT huiminyin thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT zhengkangzhou thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT xihuawang thedrivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT siyuanren drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT qingsongyang drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT hemingliu drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT guochunshen drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT zemeizheng drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT shuangshuangzhou drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT mengfangliang drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT huiminyin drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT zhengkangzhou drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
AT xihuawang drivingfactorsofsubtropicalmatureforestproductivitystandstructurematters
_version_ 1721193238702850048

Similar Items