豆科介导的土壤遗留效应强化了植物多样性—生产力关系

doi:10.1093/jpe/rtaf190

Journal of Plant Ecology

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豆科介导的土壤遗留效应强化了植物多样性—生产力关系

收稿日期:2025-04-02 接受日期:2025-10-27

Legume-Mediated Soil Legacy Effects Strengthen Plant Diversity-Productivity Relationships

Yan Chang¹, Qian Gu², Abdel-Raouf A. Moustafa³, Haiyan Ren^1*

¹College of Agro-grassland Science, Nanjing Agricultural University, Nanjing 210095, China

²School of Grassland Science, Beijing Forestry University, Beijing 100083, China

³Botany Department, Faculty of Science, Suez Canal University, Ismailia 41522, Egypt

^*Correspondence author: Haiyan Ren

E-mail: hren@njau.edu.cn Tel & Fax:025-8439613

Received:2025-04-02 Accepted:2025-10-27
Supported by:
This project was supported by the National Key Research and Development Program of China (2024YFE0103300), the National Natural Science Foundation of China (32471611), and the Chief Scientist Program of Qinghai Province (2024-SF-102).

摘要/Abstract

摘要： 物种组成所驱动的植物—土壤反馈(plant–soil feedback, PSF)在决定多样性—生产力关系中的关键作用已愈发受到关注，但其对后续多样性—生产力关系的“遗留效应”仍不清楚。我们开展了一项经典的 PSF 实验，以评估“驯化阶段”的多样性与物种组成如何塑造其后续植物的多样性—生产力关系。将由 1、2、4、8 个物种构成的植物群落分别种植于先前在对应多样性水平及五种物种组成下“驯化”的土壤中。为检验土壤微生物多样性是否调节组成效应，我们进一步通过接种物稀释建立低、中、高三个微生物多样性水平，并在同样的群落组合上进行栽培。与非豆科驯化后的土壤相比，豆科植物驯化的土壤可显著提高后续群落的生产力。豆科还使多样性—生产力关系的斜率更陡，其效应在单作驯化后最为显著。综合：除植物多样性外，物种组成同样决定土壤遗留效应的方向与大小，且在豆科等特定功能群上尤为突出。在相同物种多样性条件下，后续群落所受的土壤遗留效应取决于前期的物种组成，低多样性情形下这一依赖性更强；该效应很可能通过提升养分供给与微生物多样性而促进后续群落生长。研究表明，通过调配物种组成，特别是纳入豆科植物，可以有效利用土壤遗留效应以提升生态农业体系的生产力。

关键词: 植物-土壤反馈, 物种多样性, 土壤养分, 多样性-生产力关系, 混合种植, 土壤微生物多样性

Abstract: Although the crucial role of plant-soil feedback (PSF) associated with species composition in determining diversity-productivity relationships has been increasingly recognized, its legacy effects on subsequent diversity-productivity relationships remain unclear. We conducted a classic PSF experiment to assess how conditioning diversity and species composition shape subsequent diversity-productivity relationships. Plant communities at four diversity levels (1, 2, 4, and 8 species) were grown in soils previously conditioned at matching diversity levels and one of five species compositions. Additionally, to test whether soil microbial diversity mediates composition effects, the same communities were grown under low, moderate, and high soil biodiversity generated via inoculum dilution. Productivity was higher on legume-conditioned soils than on non-legume soils. Legumes also steepened the diversity-productivity relationship, with the strongest responses following monoculture conditioning. Synthesis. In addition to plant diversity, species composition also shapes soil legacy effects, especially for specific plant functional groups such as legumes. Under the same plant diversity, the extent of soil legacy effects on succeeding plants depended on species composition, particularly under low diversity, and likely promoted subsequent community growth by enhancing nutrient availability and microbial diversity. Our findings highlight that manipulating species composition, particularly the inclusion of legumes, can harness soil legacy effects to enhance ecosystem productivity in ecological agriculture.

Key words: plant-soil feedback, species diversity, soil nutrients, diversity-productivity relationship, mixed cropping, soil microbial diversity

. 豆科介导的土壤遗留效应强化了植物多样性—生产力关系[J]. Journal of Plant Ecology, DOI: 10.1093/jpe/rtaf190.

Yan Chang, Qian Gu, Abdel-Raouf A Moustafa, Haiyan Ren. Legume-Mediated Soil Legacy Effects Strengthen Plant Diversity-Productivity Relationships[J]. J Plant Ecol, DOI: 10.1093/jpe/rtaf190.

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豆科介导的土壤遗留效应强化了植物多样性—生产力关系

Legume-Mediated Soil Legacy Effects Strengthen Plant Diversity-Productivity Relationships

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