不同密度杉木萌生林演替初期植物功能性状及其与林分碳密度的关系

doi:10.13292/j.1000-4890.202601.021

生态学杂志 ›› 2026, Vol. 45 ›› Issue (1): 102-110.doi: 10.13292/j.1000-4890.202601.021

不同密度杉木萌生林演替初期植物功能性状及其与林分碳密度的关系

郝宗然^1,2,沈庆华³,周伟龙³,王丹³,陈雅妮³,张煜林¹,成向荣^1*

（¹中国林业科学研究院亚热带林业研究所，杭州 311400； ²南京林业大学，南京 210037； ³钱江源百山祖国家公园龙泉保护中心，浙江龙泉 323700）

出版日期:2026-01-10 发布日期:2026-01-08

Plant functional traits and their relationship with stand carbon density in Cunninghamia lanceolata forests with different sprout densities at the early stage of succession.

HAO Zongran^1,2, SHEN Qinghua³, ZHOU Weilong³, WANG Dan³, CHEN Yani³, ZHANG Yulin¹, CHENG Xiangrong^1*

(¹Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou 311400, China; ²Nanjing Forestry University, Nanjing 210037, China; ³Longquan Conservation Center of QianjiangyuanBaishanzu National Park, Longquan 323700, Zhejiang, China).

Online:2026-01-10 Published:2026-01-08

摘要/Abstract

摘要： 植物功能性状影响植物生长和资源利用策略，明确森林经营管理如何影响人工林演替过程中植物功能性状变化特征及其与碳储量的关系，对于精准提高森林质量和增强其碳汇功能至关重要。本研究以百山祖国家公园高、中、低3种杉木萌条保留密度下演替初期林分为研究对象，分析不同处理群落水平叶片和细根功能性状的变化特征，探讨这些功能性状与地上和地下碳密度的关系。结果表明：（1）随着杉木萌条密度减小，群落水平叶碳含量及叶碳氮比逐渐降低，表明林木地上部分资源利用策略由保守策略转向获取策略；（2）群落水平根长密度、根碳和氮含量也随杉木萌条密度减小而降低，但根碳氮比呈增大趋势，林木地下部分资源利用策略由获取策略转向保守策略；叶片和根系性状的相关性较弱。（3）林分地上、地下及总碳密度均受叶片性状（分别解释了48.9%、84.6%和72.0%变异）影响较大。研究结果揭示了杉木萌生林不同萌条密度处理下演替初期群落水平叶、根功能性状的变化规律及其与林分碳密度的关系，对人工林演替过程中林分密度调控、树种组成优化和碳汇功能提升具有重要意义。

关键词: 植物功能性状, 碳密度, 杉木, 树种组成

Abstract: Plant functional traits affect plant growth and resource utilization strategies. Clarifying the changes in plant functional traits and their relationship with carbon storage during community succession under forest management is crucial for the accurate enhancement of forest quality and carbon sequestration. We analyzed the variation in community-level leaf and fine root functional traits of Cunninghamia lanceolata forests with different sprouting densities (high, moderate and low) at the early stage of succession in Baishanzu National Park. The relationship between these functional traits and above and belowground carbon density was evaluated. The results showed that: (1) With reduced C. lanceolata sprout density, the community-level leaf carbon content and leaf C/N ratio decreased, indicating a shift in the aboveground resource use strategy from conservative to acquisitive strategy. (2) The community-level root length density, root carbon and nitrogen contents decreased with decreasing sprout density, but the root C/N ratio increased, suggesting a shift in the belowground strategy from acquisitive to conservative. Moreover, the correlation between leaf and root traits was weak. (3) The aboveground, belowground, and total carbon density were significantly affected by leaf traits (explaining 48.9%, 84.6% and 72.0% of the variances, respectively). These findings are of great significance for regulating stand structure, optimizing tree species composition, and improving carbon sink function during plantation succession.

Key words: plant functional trait, carbon density, Cunninghamia lanceolata, tree species composition

郝宗然, 沈庆华, 周伟龙, 王丹, 陈雅妮, 张煜林, 成向荣. 不同密度杉木萌生林演替初期植物功能性状及其与林分碳密度的关系[J]. 生态学杂志, 2026, 45(1): 102-110.

HAO Zongran, SHEN Qinghua, ZHOU Weilong, WANG Dan, CHEN Yani, ZHANG Yulin, CHENG Xiangrong. Plant functional traits and their relationship with stand carbon density in Cunninghamia lanceolata forests with different sprout densities at the early stage of succession.[J]. Chinese Journal of Ecology, 2026, 45(1): 102-110.

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不同密度杉木萌生林演替初期植物功能性状及其与林分碳密度的关系

Plant functional traits and their relationship with stand carbon density in Cunninghamia lanceolata forests with different sprout densities at the early stage of succession.

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