长期氮添加对北方林林下植物功能性状的影响

doi:10.17521/cjpe.2025.0079

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长期氮添加对北方林林下植物功能性状的影响

汪子轩, 邢爱军, 陈子歆, 沈海花, 方精云

中国科学院植物研究所, 北京 100093 中国

收稿日期:2025-03-05 修回日期:2025-08-02 接受日期:2025-08-03
基金资助:
国家自然科学基金(32301390); 国家自然科学基金(31988102)

Long term nitrogen addition alters resource use strategies in boreal forest understory plant community

WANG Zi-Xuan, xing aijun, CHEN Zi-Xin, FANG Jing-Yun

, Institute of Botany, Chinese Academy of Sciences 100093, China

Received:2025-03-05 Revised:2025-08-02 Accepted:2025-08-03
Supported by:
National Natural Science Foundation of China(32301390); National Natural Science Foundation of China(31988102)

摘要/Abstract

摘要： 植物功能性状反映资源获取的权衡机制，依据性状的组合可将植物划分为资源获取型和资源保守型。氮素是植物生长的必需元素，氮沉降的增加将通过改变生态系统氮循环，进而对植物性状和资源获取策略产生影响。然而，有关氮沉降与植物性状和策略的研究多集中于乔木层，对林下植物群落，尤其是北方林中的研究较为匮乏。基于此，该研究依托兴安落叶松林十三年的氮添加实验，从物种和群落水平探讨氮添加对林下植物性状的影响，并分析植物资源利用策略的变化。研究结果表明，氮添加促进了获取型植物(如柴桦和小叶章)的株高、比叶面积和相对盖度；而抑制了保守型植物(如越橘)的株高、相对盖度和光合速率，表明氮添加有利于获取型策略植物的生长。在群落水平上，氮添加显著促进了群落平均性状中的叶氮含量、比叶面积和株高；显著降低了叶磷含量，这些群落平均性状的变化主要由种内变异引起。相反，氮添加并没有显著改变大多数性状的功能分散度，其变化主要与种间变异有关。更重要的是，氮添加促使北方林林下植物群落的资源利用策略从保守型转变成获取型，从而促进了群落净初级生产力。综上所述，该研究从功能性状的角度揭示了长期氮添加背景下北方林林下植物群落资源利用策略的变化及其与植物群落组成和生长响应的关系。

关键词: 北方林, 氮沉降, 植物性状, 资源利用策略, 种间变异, 种内变异

Abstract: Aims Plant functional traits reflect the trade-off mechanism for resource acquisition, and plants can be classified as resource-acquiring and resource-conserving based on the combination of traits. Nitrogen (N) is essential for plant growth, and increased N deposition will affect plant traits and resource acquisition strategies by altering the ecosystem nitrogen cycle. However, most studies about the effects of N deposition on plant traits and strategies have focused on the tree layer, and there is a lack of research on understory plant communities, especially in boreal forests. Methods This study relied on thirteen years of N addition experiments in Xing'an larch forests to explore the effects of N addition on understory plant traits at the species and community levels, and to analyse changes in plant resource use strategies. Important findings The results showed that N addition promoted plant height, specific leaf area and relative cover of acquisition plants (e.g. Betula fruticosa and Deyeuxia angustifolia), while suppressed plant height, relative cover and photosynthetic rate of conservative plants (e.g. Vaccinium vitis-idaea), suggesting that N addition favoured the growth of plants with acquisition strategies. At the community level, N addition significantly promoted leaf N content, specific leaf area, and plant height; and significantly reduced leaf phosphorus content of community-weighted mean traits, change in which were mainly caused by intraspecific variation. In contrast, N addition did not significantly change the functional dispersion of most traits, and the changes were mainly related to interspecific variation. More importantly, N addition induced a shift in the resource use strategy of boreal forest understory plant communities from conservative to acquisitive, thereby contributing to community net primary productivity. In summary, this study reveals the changes in resource use strategies of boreal forest understory plant communities and their relationship with plant community composition and growth response in the context of long-term N addition.

Key words: boreal forest, nitrogen deposition, plant traits, resource use strategy, intraspecific variation, interspecific variation

汪子轩, 邢爱军, 陈子歆, 沈海花, 方精云. 长期氮添加对北方林林下植物功能性状的影响. . DOI: 10.17521/cjpe.2025.0079

WANG Zi-Xuan, xing aijun, CHEN Zi-Xin, FANG Jing-Yun. Long term nitrogen addition alters resource use strategies in boreal forest understory plant community. Chinese Journal of Plant Ecology. DOI: 10.17521/cjpe.2025.0079

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链接本文: https://www.plant-ecology.com/CN/10.17521/cjpe.2025.0079

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