Synergies and trade-offs in forest carbon pools: separating universal drivers from forest type-specific controls
You Zhou, Jiyun She, Guohong Xiang, Xiongmei Zhu

TL;DR
The study finds that tree diversity helps balance carbon storage in natural forests, but planted forests show stronger trade-offs, suggesting diversity improvements could enhance carbon sinks.
Contribution
The study identifies tree diversity as a modulator of carbon allocation mechanisms, distinguishing regulatory pathways in natural versus planted forests.
Findings
Tree layer carbon density suppresses understory carbon density but boosts soil carbon density universally.
Tree diversity in natural forests buffers the trade-off between tree and understory carbon.
Planted forests exhibit simplified and more acute carbon allocation trade-offs compared to natural forests.
Abstract
Understanding the synergies and trade-offs among tree, understory, and soil carbon pools is critical for optimizing forest carbon sinks. However, the mechanisms regulating these relationships, particularly how they differ between natural and planted forests, remain unclear. This study aims to deconstruct these complex interactions in subtropical forests to provide a scientific basis for enhancing ecosystem carbon storage. Based on data from 440 plots covering six major forest types in subtropical China, we employed linear mixed-effects models (LMMs) to quantify universal and context-dependent driver effects. We then used structural equation models (SEMs) to test and compare the mechanistic pathways of carbon allocation in natural versus planted forests. Our LMMs revealed a universal trade-off, with tree layer carbon density (TCD) strongly suppressing understory carbon density (UCD) (β…
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Taxonomy
TopicsPlant Water Relations and Carbon Dynamics · Ecology and Vegetation Dynamics Studies · Forest ecology and management
