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- Title
Temporal dynamics of plant−soil feedback and related mechanisms depend on environmental context during invasion processes of a subtropical invader.
- Authors
Li, Yang-Ping; Li, Wei-Tao; Li, Ju; Feng, Yu-Long
- Abstract
Aims: Plant-soil feedback (PSF), which may vary across spaces and time, is considered as an important mechanism in biological invasions. However, it is still unclear how PSF changes during biological invasions in different environments. Methods: To address this problems, we measured aboveground biomass and cover of the invasive plant Ageratina adenophora, richness and diversity of its co-occurring natives, PSFs for the invader, soil nutrients and fungal communities at uninvaded, recently and long invaded sites in lightly and severely disturbed habitats. Results: Invasion time and habitats influenced PSFs for the invader interactively. As invasion time increased, the positive total PSFs (response to their soil biota relative to sterilized soil) shifted to neutral, and the negative specific PSFs (response to their own soil biota relative to other species' soil biota) became more stronger in lightly disturbed habitats, but not in severely disturbed habitats. The dominance of the invader and its ecological impacts remained similar in lightly disturbed habitats, while in severely disturbed habitats, both the invader's dominance and impacts increased. The dynamics of the PSFs were associated with soil nutrients and microbes, and the former may function indirectly via affecting the lattes. Soil pathogens and AMF contributed to the dynamics of the PSFs in some cases, but not in others. Conclusions: These findings indicate that the complex spatiotemporal dynamics of PSFs may contribute to the dynamics of dominance and impact of invasive species in forests, and highlight the need to consider the effects of invasion time and environments when studying PSFs.
- Subjects
INVASIVE plants; PLANT invasions; BIOLOGICAL invasions; ECOLOGICAL impact; FUNGAL communities; SOIL microbiology; GROUND cover plants; BIOTIC communities
- Publication
Plant & Soil, 2024, Vol 496, Issue 1/2, p539
- ISSN
0032-079X
- Publication type
Article
- DOI
10.1007/s11104-023-06380-1