Factors driving carbon accumulation in forest biomass and soil organic carbon across natural forests and planted forests in China

IF 2.7 3区 农林科学 Q2 ECOLOGY Frontiers in Forests and Global Change Pub Date : 2024-01-08 DOI:10.3389/ffgc.2023.1333868
Tao Wang, Lingbo Dong, Zhaogang Liu
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Abstract

Forests play a pivotal role within the global carbon cycle. However, how to enhance carbon storage in existing forests remains unclear.In this study, we conduct a comprehensive analysis of data from 2,948 forest sites across China. Utilizing structural equation modeling (SEM), we investigate the intricate relationship between climate, tree species diversity, stand structure, function traits, initial biomass carbon stocks (BCi), soil organic carbon stocks (Soil C content), and carbon accumulation in biomass (ΔBC) and soil organic carbon stocks (ΔSOC) within both natural forests (NF, n = 1,910) and planted forests (PF, n = 1,038).Our findings underscore the critical influence of tree species diversity and stand structure drivers of both direct and indirect carbon accumulation, with distinct drivers emerging based on the carbon pools in NF and PF. Specifically, increasing tree species diversity from its minimum to maximum value through management-results in a 14.798 tC/ha reduction in BC and 0.686 tC/ha in SOC in NF. Conversely, amplifies BC and SOC in PF by 0.338 tC/ha and 0.065 tC/ha, respectively. Enhancing stand structure-such as stand density-results in a 231.727 tC/ha reduction in BC and SOC in NF, and a 10.668 tC/ha in BC and 64.008 tC/ha increment in SOC in PF.Overall, our results indicate that higher tree species diversity, stand density and age-group limits further carbon accumulation in BC and SOC in current NF. In contrast, low tree species diversity and stand density limits the development of carbon storage potential in planted forests. To enhance carbon sequestration capacity, China should change its current policy of completely banning logging of natural forests. Natural forests need thinning and reduced tree species diversity, while planted forests should increase tree species diversity and stand density.
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中国天然林和人工林森林生物量和土壤有机碳累积的驱动因素
森林在全球碳循环中发挥着举足轻重的作用。在本研究中,我们对来自中国 2,948 个林地的数据进行了综合分析。利用结构方程模型(SEM),我们研究了天然林(NF,n = 1,910 个)和人工林(PF,n = 1,038 个)中气候、树种多样性、林分结构、功能性状、初始生物量碳储量(BCi)、土壤有机碳储量(Soil C content)、生物量碳储量(ΔBC)和土壤有机碳储量(ΔSOC)之间错综复杂的关系。我们的研究结果强调了树种多样性和林分结构对直接和间接碳积累的重要影响,并根据天然林和人工林的碳库得出了不同的驱动因素。具体而言,通过管理将树种多样性从最低值提高到最高值--会导致 NF 的 BC 和 SOC 分别减少 14.798 吨碳/公顷和 0.686 吨碳/公顷。相反,PF 的 BC 和 SOC 分别增加了 0.338 吨碳/公顷和 0.065 吨碳/公顷。总体而言,我们的研究结果表明,较高的树种多样性、林分密度和树龄组限制了当前NF中BC和SOC的进一步碳积累。与此相反,低树种多样性和林分密度限制了人工林碳储存潜力的发展。为提高固碳能力,中国应改变目前完全禁止采伐天然林的政策。天然林需要疏伐并减少树种多样性,而人工林则应增加树种多样性和林分密度。
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来源期刊
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
期刊最新文献
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