Forest ecosystems are an integral component of the global carbon cycle as they take up and release large amounts of C over short time periods (C flux) or accumulate it over longer time periods (C stock). However, there remains uncertainty about whether and in which direction C fluxes and in particular C stocks may differ between forests of high versus low species richness. Based on a comprehensive dataset derived from field-based measurements, we tested the effect of species richness (3–20 tree species) and stand age (22–116 years) on six compartments of above- and below-ground C stocks and four components of C fluxes in subtropical forests in southeast China. Across forest stands, total C stock was 149 ± 12 Mg ha−1 with richness explaining 28.5% and age explaining 29.4% of variation in this measure. Species-rich stands had higher C stocks and fluxes than stands with low richness; and, in addition, old stands had higher C stocks than young ones. Overall, for each additional tree species, the total C stock increased by 6.4%. Our results provide comprehensive evidence for diversity-mediated above- and below-ground C sequestration in species-rich subtropical forests in southeast China. Therefore, afforestation policies in this region and elsewhere should consider a change from the current focus on monocultures to multi-species plantations to increase C fixation and thus slow increasing atmospheric CO2 concentrations and global warming.
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机译:森林生态系统是全球碳循环的一个不可或缺的组成部分,因为它们会在短时间内吸收并释放大量的C(C通量),或者在较长的时间内积聚(C储量)。但是,对于物种丰富度高与低的森林,C通量,特别是C储量是否以及在哪个方向可能存在差异,仍存在不确定性。在基于实地测量的综合数据集的基础上,我们测试了物种丰富度(3–20种树种)和林分年龄(22–116年)对地上和地下C储量的六个区室和四个组成部分的影响东南亚热带森林碳通量变化在整个林分中,C总量为149±12 Mg ha -1 ,其中丰富度解释了28.5%,年龄解释了29.4%的变化。物种丰富的林地的碳储量和通量高于那些物种丰富度低的林地。此外,旧看台的C库存高于年轻看台。总体而言,每增加一种树种,总碳储量将增加6.4%。我们的结果为在中国东南部物种丰富的亚热带森林中由介导的地下和地下碳固存提供了全面的证据。因此,该地区和其他地方的造林政策应考虑从目前的重点放在单一种植向多物种种植转变,以增加固碳,从而减缓大气中二氧化碳浓度和全球变暖的速度。
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