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Influences of plant functional traits on soil organic carbon stocks: The roles of carbon input quality and diversity

土壤碳 垃圾箱 生态系统 营养物 植物群落 固碳 环境科学 植物凋落物 生态学 营养循环 土壤质量 碳纤维 农学 生物 物种丰富度 土壤水分 数学 复合数 二氧化碳 算法
作者
Junsheng Huang,Yuxuan Gao,Yong Peng,Pengfei Chang,Yuntao Wu,Lulu Guo,Jie Luo,Lingli Liu
出处
期刊:Ecology [Wiley]
卷期号:106 (7): e70148-e70148 被引量:13
标识
DOI:10.1002/ecy.70148
摘要

Soil organic carbon (SOC) predominately originates from the decomposition of plant aboveground and belowground litter, which consists of diverse traits mixed in varying proportions. While numerous studies of litter decomposition have been conducted, the majority have primarily focused on litter mass loss rates. Our comprehension of how the quality and diversity of plant C inputs impact SOC formation remains significantly constrained largely due to the difficulty in their direct measurement at the ecosystem scale. Here, we compiled a global dataset including community-weighted means and variances of plant aboveground structural and chemical traits, which serve as effective indicators of the quality and diversity of C inputs, respectively. We found that smaller community-weighted means of specific leaf area, signifying a lower quality of plant C inputs, could actually enhance SOC accumulation. This finding challenges the common notion that the high microbial carbon use efficiency of labile C inputs would ultimately benefit SOC sequestration. Our findings also showed that greater community-weighted variances of specific leaf area, reflecting more diverse plant C inputs, were positively associated with SOC stocks likely due to the fact that higher C diversity can increase SOC persistence by increasing metabolic costs and diversifying organo-mineral bonds. On the contrary, community-weighted variances of leaf nitrogen content were negatively correlated with SOC stocks. This indicates that litter mixtures with diverse nutrient contents are prone to decomposition possibly due to the complementary effects of nutrients. Notably, the contributions of C input quality and diversity to SOC stocks were more pronounced in colder or drier ecosystems, where the recalcitrance and diversity of C inputs exert a more substantial influence in limiting the microbial decay of SOC. Our results point to the climate-dependent yet important effects of plant C input quality and diversity on SOC stocks across the globe.
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