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探索棕榈叶斑真菌的多样性和生态动态——以葡萄牙观赏棕榈为例

Exploring the Diversity and Ecological Dynamics of Palm Leaf Spotting Fungi-A Case Study on Ornamental Palms in Portugal.

作者信息

Pereira Diana S, Phillips Alan J L

机构信息

Biosystems and Integrative Sciences Institute (BioISI), Faculdade de Ciências, Universidade de Lisboa, Campo Grande, 1749-016 Lisboa, Portugal.

出版信息

J Fungi (Basel). 2025 Jan 7;11(1):43. doi: 10.3390/jof11010043.

DOI:10.3390/jof11010043
PMID:39852462
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11766901/
Abstract

Palm trees () are among the most popular ornamental plants worldwide. Despite extensive research on the fungi associated with , the diversity and ecological dynamics of fungi affecting ornamental palms remain poorly studied, although they have significant impact on palm health and economic value. Furthermore, while research on palm fungal diversity has traditionally focused on tropical assemblages, ornamental palms in temperate climates offer a unique opportunity to explore the diversity of palm fungi in non-native habitats. The present study conducted a preliminary assessment of the diversity and ecology of potential phytopathogenic fungi associated with foliar lesions on various ornamental palm host species in Portugal, combining morphological examination, PCR-based genomic fingerprinting, and biodiversity data analysis. The examination of 134 foliar lesions sampled from 100 palm trees resulted in a collection of 2064 palm leaf spotting fungi (PLSF), representing a diverse fungal assemblage of 320 molecular operational taxonomic units (MOTUs) across 97 genera. The overall fungal community composition revealed a distinct assemblage dominated by , , , and , with a profusion of infrequent and rare taxa consistent with a logseries distribution. Significantly positive co-occurrence (CO) patterns among prevalent and uncommon taxa suggest potential synergistic interactions enhancing fungal colonisation, persistence, and pathogenicity. The taxonomic structures of the PLSF contrasted markedly from tropical palm fungi, especially in the prevalence of pleosporalean coelomycetes of the and , including recently introduced or not previously documented genera on . This novel assemblage suggests that climatic constraints shape the structure of palm fungal communities, resulting in distinctive temperate and tropical assemblages. In addition, the fungal assemblages varied significantly across palm host species, with temperate-native palms hosting more diverse, coelomycete-enriched communities. The present findings highlight foliar lesions as hyperdiverse microhabitats harbouring fungal communities with intricate interactions and a complex interplay of climatic, host, and ecological factors. With climate change altering environmental conditions, the identification of fungi thriving in or inhabiting these microhabitats becomes crucial for predicting shifts in pathogen dynamics and mitigating future fungal disease outbreaks. Understanding these complex ecological dynamics is essential for identifying potential phytopathogenic threats and developing effective management strategies for the health and sustainability of ornamental plants.

摘要

棕榈树是全球最受欢迎的观赏植物之一。尽管对与棕榈树相关的真菌进行了广泛研究,但影响观赏棕榈树的真菌多样性和生态动态仍研究不足,尽管它们对棕榈树的健康和经济价值有重大影响。此外,虽然对棕榈树真菌多样性的研究传统上集中在热带群落,但温带气候下的观赏棕榈树为探索非原生境中棕榈树真菌的多样性提供了独特机会。本研究结合形态学检查、基于PCR的基因组指纹分析和生物多样性数据分析,对葡萄牙各种观赏棕榈树寄主物种上与叶部病斑相关的潜在植物病原真菌的多样性和生态学进行了初步评估。对从100棵棕榈树上采集的134个叶部病斑进行检查,共收集到2064种棕榈叶斑真菌(PLSF),代表了一个跨越97个属的320个分子操作分类单元(MOTU)的多样真菌群落。总体真菌群落组成显示出一个以[具体真菌属1]、[具体真菌属2]、[具体真菌属3]和[具体真菌属4]为主导的独特群落,大量不常见和罕见的分类单元符合对数级数分布。常见和不常见分类单元之间显著的正共现(CO)模式表明存在潜在的协同相互作用,增强了真菌的定殖、持久性和致病性。PLSF的分类结构与热带棕榈树真菌明显不同,特别是在[具体真菌属5]和[具体真菌属6]的侧盘菌腔孢菌的流行方面,包括最近引入的或以前未记录在案的[具体棕榈树种类]上的属。这种新的群落表明气候限制塑造了棕榈树真菌群落的结构,导致了独特的温带和热带群落。此外,真菌群落在不同的棕榈树寄主物种间有显著差异,温带原生棕榈树拥有更多样化、富含腔孢菌的群落。本研究结果突出了叶部病斑作为高度多样的微生境,其中蕴藏着具有复杂相互作用以及气候、寄主和生态因素复杂相互作用的真菌群落。随着气候变化改变环境条件,识别在这些微生境中生长或栖息的真菌对于预测病原体动态变化和减轻未来真菌病害爆发至关重要。了解这些复杂的生态动态对于识别潜在的植物病原威胁以及制定观赏植物健康和可持续性的有效管理策略至关重要。

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