Journal of Plant Ecology

• •    

多功能群物种混播降低了重度退化高寒草甸群落水平的根系分泌物速率

  

  • 收稿日期:2024-12-31 接受日期:2025-11-06

Multifunctional Group Species Reseeding Reduce Community-Level Root Exudate Rate at Severely Degraded Alpine Meadows

Wenying Wang1, Yuanming Xiao1, Xiaoyun Wang3, Jiaxin Xu4, Bo Fan1 and Guoying Zhou2*   

  1. 1. Northwest Institute of Plateau Biology, Chinese Academy of Sciences, Xining 810008, China. 

     2. Sichuan Zoige Alpine Wetland Ecosystem National Observation and Research Station, Southwest Minzu University, Chengdu 610041, China. 

     3. Academy of Animal Science and Veterinary, Qinghai University, Xining 810016, China. 

     4. College of Agriculture and Animal Husbandry, Qinghai University, Xining 810016, China. 

     *Corresponding author: 

     Dr. Guoying Zhou, 

     Tel: +86-971-6159630, 

     Fax: +86-971-6143282,

     E-mail: zhougy@nwipb.cas.cn 

     Address: 16# South Fourth Section of First Ring Road, Chengdu, Sichuan, P. R. China 610041

  • Received:2024-12-31 Accepted:2025-11-06
  • Supported by:
    This research was jointly supported by the Natural Science Foundation of Qinghai Province (2023-ZJ-902T), Inter-institute Youth United Foundation of Lanzhou Branch of Chinese Academy of Sciences (2024-LZFYQNLHJJ-02) and National Natural Science Foundation of China (32401419). We sincerely thank two anonymous colleagues for assistance in language service.

PDF (PC)

4

摘要: 根系分泌物在植物与土壤的通讯和相互作用中扮演重要角色。然而,在重度退化高寒草甸中,碳 (C)、氮 (N)、磷 (P) 的根系分泌速率及其化学计量比对多功能群物种混播的响应机制尚不明确。本研究在重度退化高寒草甸为研究对象,构建了禾草混播、禾+豆混播、禾+豆+莎混播、禾+豆+杂混播的多功能群物种配置模式。结果表明:在四种混播处理中,禾+豆+莎混播的根系碳分泌速率及总分泌量最低,而氮、磷分泌速率及其总分泌量在各处理间无显著差异。根系分泌物的碳磷比 (C:P) 在禾+豆+莎混播中最低,而碳氮比 (C:N) 和氮磷比 (N:P) 在四组补播处理间未呈现显著差异。根系碳、磷分泌速率及C:N、N:P比与植物多样性、地上生物量、总生物量、土壤有机质和电导率均呈显著相关。方差分解表明,根系碳分泌速率主要受生物量影响,而氮、磷分泌速率则更多受植物多样性调控。这些发现表明物种补播模式能显著影响根系分泌物及其化学计量特征,有助于理解补播背景下土壤微生物与土壤健康的演变轨迹。

关键词: 根系分泌物, 化学计量特征, 高寒草甸, 植被恢复, 青藏高原

Abstract: Root exudates play a crucial role in the communication and interaction between plants and soil. However, the responses of carbon (C), nitrogen (N), and phosphorus (P) exudation rates, and their stoichiometric ratios to multifunctional group species reseeding in severely degraded alpine meadows remain poorly understood. This study was conducted in a severely degraded alpine meadow and four species composition treatments were established: grass mixtures, grass + legume mixtures, grass + legume + sedge mixtures, and grass + legume + forb mixtures. The results showed that among the four reseeding treatments, the grass + legume + sedge mixture exhibited the lowest root C exudate rate and total exudate capacity, while N and P exudation rates, as well as their total exudate capacities, did not differ significantly between treatments. The carbon-to-phosphorus (C:P) ratio of root exudate was lowest in the grass + legume + sedge mixture, while the carbon-to-nitrogen (C:N) and nitrogen-to-phosphorus (N:P) ratios showed no significant differences among the four reseeding treatments. Root C and P exudation rates, as well as the C:N and N:P ratios, were significantly correlated with plant diversity, aboveground biomass, total biomass, soil organic matter and electrical conductivity. Variation partitioning analysis showed that root C exudate rate was most strongly influenced by biomass, whereas N and P exudate rates were more strongly affected by plant diversity. These findings suggest that species reseeding patterns significantly influence root exudates and their stoichiometric characteristics and contribute to understand the trajectories of soil microbes and soil health under reseeding.

Key words: Root exudation, Stoichiometric characteristics, Alpine meadow, Vegetation restoration, Qinghai-Tibetan Plateau

Copyright ©2022 版权所有 《植物生态学报》编辑部
地址: 北京香山南辛村20号, 邮编: 100093
Tel.: 010-62836134, 62836138; Fax: 010-82599431; E-mail: apes@ibcas.ac.cn, cjpe@ibcas.ac.cn
网站备案号: 京ICP备16067583号-19