J Plant Ecol ›› 2026, Vol. 19 ›› Issue (3): rtaf221.DOI: 10.1093/jpe/rtaf221

• Research Article •    

Plant-mediated and drought legacies differentially impact root traits and intra and interspecific competition strength

Hui Ji, Liang Yang, Jingying Jing   

  1. College of Grassland Science and Technology, China Agricultural University, Beijing 100193, China
    *Corresponding author. E-mail: jingying.jing@cau.edu.cn
  • Received:2025-07-02 Revised:2025-08-07 Accepted:2025-12-11 Published:2026-06-01
  • Supported by:
    This study was supported by the Natural Science Foundation of China (32471772, 32192462, 31972957).

植物与干旱遗留效应对根系性状及种内与种间竞争的差异化影响

Abstract: Drought and plant species identity can alter soil conditions, thereby influencing subsequent plant performance and competitive interactions. Although trait differences play a role in determining competition outcomes, most studies have focused on aboveground traits, leaving root-mediated responses under explored. We conducted a two-phase soil conditioning experiment: in Phase 1, species-specific microbial legacies were established through field-derived inoculation of Stipa krylovii, Artemisia frigida and Agropyron cristatum; Phase 2 examined the plantmediated legacy of these species along with drought legacy, comprising normal watering and drought treatment. The three focal species were then planted under three competition modes: no competition, intraspecific competition and interspecific competition. Three key findings emerged: First, plant-mediated legacies showed species-specific effects, primarily influencing A. cristatum’s biomass allocation and root growth. In contrast, drought legacy mainly affected root morphological traits (including specific root length, root tissue density and average root diameter), with these effects strongly modulated by competition mode. Second, plant legacy (but not drought legacy) significantly impacted both intraspecific and interspecific competition strength, with consistent effects across competition modes. Root growth decreased with increasing intraspecific and interspecific competition strength, while root morphological traits responded to intraspecific competition strength in a species-specific manner. Finally, multidimensional root trait differences and root volume differences explained changes in the interspecific competition strength of A. cristatum. These findings emphasize that plant responses to soil legacy effects and competition modes drive variations in intra and interspecific competition strength, providing insights into species coexistence and community assembly mechanisms.

This study reveals that species-specific plant legacies primarily regulate biomass allocation and root growth and significantly influence both intra- and interspecific competition strength, whereas drought legacy mainly alters root morphological traits. By demonstrating that multidimensional root trait differences explain variation in interspecific competition strength, our findings emphasize the critical role of root-mediated responses to soil legacy in regulating species coexistence and community assembly.

Key words: plant legacy, drought legacy, biomass allocation, intra- and interspecific competition, changes in trait means, root trait differences

摘要:
干旱与植物物种特性通过改变土壤条件,从而影响后续植物生长表现及竞争关系。尽管性状差异在决定竞争结果中具有关键作用,但是当前研究大多聚焦地上性状,而对根系性状介导的响应关注较少。针对这一问题,本研究开展了两阶段土壤驯化实验:第一阶段通过接种野外采集的克氏针茅(Stipa krylovii)、冷蒿(Artemisia frigida)和冰草(Agropyron cristatum)根际土,建立了物种特异性的微生物遗留效应;第二阶段建立了植物遗留效应和干旱遗留效应(正常浇水和干旱处理),并将3种植物置于无竞争、种内竞争和种间竞争模式下生长。主要结论如下:首先,植物遗留效应呈现显著的物种特异性,主要影响冰草的生物量分配和根系生长;相反,干旱遗留效应主要影响根系形态性状(包括比根长、根组织密度和平均根径),且受到竞争模式的调控。其次,植物遗留效应而非干旱遗留效应影响种内和种间竞争强度,并在不同竞争模式下表现一致。随着种内和种间竞争强度加强,根系生长减少,而根系形态性状对种内竞争强度的响应具有物种特异性。最后,多维根性状差异和体积差异能够解释冰草的种间竞争强度的变化。上述研究揭示了植物对土壤遗留效应及竞争模式的响应驱动了种内和种间竞争强度的变化,为理解物种共存与群落构建机制提供重要见解。

关键词: 植物遗留, 干旱遗留, 生物量分配, 种内和种间竞争, 性状均值变化, 根系性状差异