Soil microbial communities dynamics in response to invasive groundcover Carpobrotus: Insights into native species interactions and edaphic influence

IF 4.8 2区 农林科学 Q1 SOIL SCIENCE Applied Soil Ecology Pub Date : 2024-07-24 DOI:10.1016/j.apsoil.2024.105537
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Abstract

Alien invasive plant species of the genus Carpobrotus pose a major threat to coastal dune ecosystems. These human-introduced species have quickly expanded throughout the Mediterranean basin and other regions due to their high reproduction rates and adaptability. Carpobrotus invasion alters soil properties due to necromass and the release of allelopathic compounds, hindering the regrowth of native flora, with anticipated impacts on the native vegetation-associated soil microbial communities. While some studies have described changes in microbial communities between native and Carpobrotus-impacted areas, none have specifically addressed the responses of microbial communities associated with single native species. In this light, the bacterial and fungal communities specifically associated with different native species in both natural and Carpobrotus-impacted plots were examined in three locations along the middle Tyrrhenian Italian coast. Microbial communities responses to the Carpobrotus invasion varied greatly depending on the native species and the edaphic characteristics of the study locations. Microbial communities associated with Pancratium maritimum were the most affected ones and those associated with Cakile maritima the less sensitive to the invasion, which may be correlated to the different characteristics of these plant species. Furthermore, fungal communities exhibited a greater degree of disruption compared to bacterial ones. In invaded plots, fungal species that comprise plant pathogens were notably more abundant. This suggests that patterns in microbial communities response to this invasion phenomenon cannot be generalized, and that recovery strategies should consider various local conditions and be adjusted for the various native vegetation species. Finally, the possible spread of fungal plant pathogens as a mechanism of defence of Carpobrotus should be considered.

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土壤微生物群落对入侵地被植物 Carpobrotus 的动态响应:对本地物种相互作用和环境影响的启示
外来入侵植物鲤鱼草属物种对沿海沙丘生态系统构成了重大威胁。由于繁殖率高、适应性强,这些人类引入的物种已迅速扩展到整个地中海盆地和其他地区。Carpobrotus 的入侵会因坏死物质和释放等效化合物而改变土壤性质,阻碍原生植物群的重新生长,预计会对与原生植被相关的土壤微生物群落产生影响。虽然有些研究描述了本地和受 Carpobrotus 影响地区之间微生物群落的变化,但没有研究专门探讨与单一本地物种相关的微生物群落的反应。有鉴于此,我们在意大利第勒尼安海中部沿岸的三个地点考察了自然地块和受 Carpobrotus 影响地块中与不同本地物种相关的细菌和真菌群落。微生物群落对 Carpobrotus 入侵的反应因本地物种和研究地点的土壤特性不同而有很大差异。与 Pancratium maritimum 相关的微生物群落受影响最大,而与 Cakile maritima 相关的微生物群落对入侵的敏感度较低,这可能与这些植物物种的不同特性有关。此外,与细菌群落相比,真菌群落受到的破坏程度更大。在被入侵的地块中,构成植物病原体的真菌种类明显更多。这表明,微生物群落对这种入侵现象的反应模式不能一概而论,恢复策略应考虑当地的各种条件,并根据不同的本地植被物种进行调整。最后,还应该考虑真菌植物病原体的传播可能成为 Carpobrotus 的一种防御机制。
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来源期刊
Applied Soil Ecology
Applied Soil Ecology 农林科学-土壤科学
CiteScore
9.70
自引率
4.20%
发文量
363
审稿时长
5.3 months
期刊介绍: Applied Soil Ecology addresses the role of soil organisms and their interactions in relation to: sustainability and productivity, nutrient cycling and other soil processes, the maintenance of soil functions, the impact of human activities on soil ecosystems and bio(techno)logical control of soil-inhabiting pests, diseases and weeds.
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