Journal of Plant Ecology

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内蒙古温带草原植物不同物种不同根级的根系寿命差异

  

  • 收稿日期:2026-01-09 接受日期:2026-06-15

Root lifespan differs by root order among coexisting temperate grassland species

Fengfeng Cao1,2, Xueqi Zhang1,2, Shijie Zhao3, Meng Zhou1, Wen-Hao Zhang1,4 and Wenming Bai1*   

  1. 1State Key Laboratory of Forage Breeding-by-Design and Utilization, Key Laboratory of Vegetation and Environmental Change, Institute of Botany, The Chinese Academy of Sciences, Beijing, China
    2 College of Life Sciences, University of Chinese Academy of Sciences, Beijing, China
    3 The Duolun County Forestry and Grassland Bureau, Xilinggol 027300, China
    4 College of Resource and Environment, University of Chinese Academy of Sciences, Beijing 100049, China
    *Corresponding author. E-mail: bwming@ibcas.ac.cn
  • Received:2026-01-09 Accepted:2026-06-15
  • Supported by:
    This study was supported by the National Natural Science Foundation of China (U2571209, 32471715)

摘要: 根系寿命是与植物水分和养分获取、物种共存和群落多样性密切相关的重要功能性状。尽管已有研究表明,在木本植物中,根系寿命在不同根级之间存在差异,但在草本植物中是否也存在类似的模式仍不清楚。为此,本研究于2013年5月至2014年10月在中国北方温带草原利用根窗法对10个共存物种的28763条根系进行了为期10天间隔的连续观测,比较分析了它们的根系寿命。结果显示:温带草原草本植物根系的平均寿命在不同根级间存在显著差异,10种草本植物二级根的平均寿命约为一级根的2倍。此外,不同物种的平均根寿命差异很大,其中杂类草冷蒿最低,仅为59.25天,而禾本科冰草最高,可达221.5天。这些结果表明,草地群落中不同植物的根系寿命存在差异,禾草比杂类草具有更长的根系寿命。与木本植物一样,温带草原草本植物的一级根比二级根寿命更短。根系寿命在草原群落中物种间和功能型间的差异凸显了草原生态系统中共存物种的资源获取策略的多样性。

关键词: 草本植物, 根窗, 根系分支次序, 根系寿命, 温带草地

Abstract: Root lifespan is an important functional trait associated with water and nutrient acquisition, species coexistence, and community diversity. Although previous studies have shown that root lifespan varies among root orders in woody plants, it remains unclear whether similar patterns occur in herbaceous species. We determined and compared root longevity of ten coexisting species using rhizotrons by monitoring 28,763 roots at a 10-day interval from May 2013 to October 2014 in a temperate steppe in northern China. Mean root lifespan of herbaceous species in temperate grasslands exhibited distinct differences among root orders, such that the averaged lifespan of second-order roots was approximately 2-fold longer than that of first-order roots across the ten species. In addition, mean root lifespan among the examined species differed substantially, ranging from 59.25 days for a forb species of Artemisia frigida to 221.5 days for a grass species of Agropyron cristatum. These results revealed that root lifespan differed among plant species in the grassland community, with grasses having longer-lived roots than forbs. As in woody species, first-order roots of herbaceous species in temperate grasslands were shorter-lived than second-order roots. Differences in root lifespan among species and plant functional types in the steppe community may highlight the diverse strategies for resource acquisition among coexisting species in grassland ecosystems.

Key words: Herbaceous species, rhizotron, root branching order, root longevity, temperate grasslands