期刊
JOURNAL OF ECOLOGY
卷 109, 期 6, 页码 2488-2498出版社
WILEY
DOI: 10.1111/1365-2745.13660
关键词
bacteria; fungi; germinants; microbes; plant germination; plant‐ microbial association; soil seed bank
资金
- Sklodowska-Curie Grant [702057]
- British Ecological Society [LRA17\1193]
Plant-associated microbes play a crucial role in plant germination, with different plant species having their own germination microbiome. Positive interactions between plants and microbes were observed during germination, and there were significant correlations between microbes and plant functional traits. The study highlights the importance of soil microbial communities in driving plant germination and emphasizes the intimate relationship between plant and soil biodiversity.
Plant-associated microbes play essential roles in nutrient uptake and plant productivity, but their role in driving plant germination, a critical stage in the plant life cycle, is still poorly understood. We used data from a large-scale, field-based soil seed bank study to examine the relationship among plants germinating from the seed bank and soil microbial community composition. We combined this with an experiment using 34 laboratory-based microcosms whereby sterile soil was inoculated with microbes from different field sites to examine how microbes affect the germination of nine plant species. The community composition of plants in the soil seed bank was highly and significantly associated with bacterial and fungal community composition, with stronger correlations for soil beneath plant canopies. Microbes predicted a unique portion of the variation in the community composition of germinants after accounting for differences in environmental variables. The strongest correlations among microbes and plant functional traits included those related to perenniality, growth form, plant size, root type and seed shape. Our microcosm study showed that different plant species had their own associated germination microbiome, and most plant-microbe interactions were positive during germination. Synthesis. Our study provides evidence for intimate relationships between plant and soil biodiversity during germination. Our work fills an important knowledge gap for plant-microbe interactions and reveals valuable insights into the shared natural history of plants and microbes in terrestrial ecosystems.
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