Exploring the Influence of Date Palm Cultivars on Soil Microbiota.

IF 3.3 3区 生物学 Q2 ECOLOGY
Pedro Ferreira, Mohamed Ali Benabderrahim, Hammadi Hamza, Alexis Marchesini, Mokhtar Rejili, Joana Castro, Rui M Tavares, Daniela Costa, Federico Sebastiani, Teresa Lino-Neto
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Abstract

Plants thrive in diverse environments, where root-microbe interactions play a pivotal role. Date palm (Phoenix dactylifera L.), with its genetic diversity and resilience, is an ideal model for studying microbial adaptation to different genotypes and stresses. This study aimed to analyze the bacterial and fungal communities associated with traditional date palm cultivars and the widely cultivated "Deglet Nour" were explored using metabarcoding approaches. The microbial diversity analysis identified a rich community with 13,189 bacterial and 6442 fungal Amplicon Sequence Variants (ASVs). Actinobacteriota, Proteobacteria, and Bacteroidota dominated bacterial communities, while Ascomycota dominated fungal communities. Analysis of the microbial community revealed the emergence of two distinct clusters correlating with specific date palm cultivars, but fungal communities showed higher sensitivity to date palm genotype variations compared to bacterial communities. The commercial cultivar "Deglet Nour" exhibited a unique microbial composition enriched in pathogenic fungal taxa, which was correlated with its genetic distance. Overall, our study contributes to understanding the complex interactions between date palm genotypes and soil microbiota, highlighting the genotype role in microbial community structure, particularly among fungi. These findings suggest correlations between date palm genotype, stress tolerance, and microbial assembly, with implications for plant health and resilience. Further research is needed to elucidate genotype-specific microbial interactions and their role in enhancing plant resilience to environmental stresses.

Abstract Image

探索枣椰树栽培品种对土壤微生物群的影响。
植物在多样化的环境中茁壮成长,其中根系与微生物的相互作用发挥着关键作用。枣椰树(Phoenix dactylifera L.)具有遗传多样性和抗逆性,是研究微生物适应不同基因型和压力的理想模型。本研究旨在分析与传统枣椰树栽培品种相关的细菌和真菌群落,并利用代谢编码方法探索了广泛栽培的 "Deglet Nour"。微生物多样性分析确定了一个丰富的群落,其中有 13 189 个细菌和 6442 个真菌扩增序列变体(ASV)。放线菌群、变形菌群和类杆菌群在细菌群落中占主导地位,而子囊菌群在真菌群落中占主导地位。对微生物群落的分析表明,出现了两个与特定枣椰树栽培品种相关的不同群落,但与细菌群落相比,真菌群落对枣椰树基因型变化的敏感性更高。商业栽培品种 "Deglet Nour "表现出独特的微生物组成,富含致病真菌类群,这与其遗传距离相关。总之,我们的研究有助于理解枣椰树基因型与土壤微生物群之间复杂的相互作用,突出了基因型在微生物群落结构中的作用,尤其是在真菌中。这些研究结果表明,枣椰树基因型、抗逆性和微生物群落之间存在相关性,对植物的健康和恢复能力有影响。还需要进一步研究,以阐明基因型特异性微生物相互作用及其在增强植物对环境胁迫的恢复能力方面的作用。
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来源期刊
Microbial Ecology
Microbial Ecology 生物-海洋与淡水生物学
CiteScore
6.90
自引率
2.80%
发文量
212
审稿时长
3-8 weeks
期刊介绍: The journal Microbial Ecology was founded more than 50 years ago by Dr. Ralph Mitchell, Gordon McKay Professor of Applied Biology at Harvard University in Cambridge, MA. The journal has evolved to become a premier location for the presentation of manuscripts that represent advances in the field of microbial ecology. The journal has become a dedicated international forum for the presentation of high-quality scientific investigations of how microorganisms interact with their environment, with each other and with their hosts. Microbial Ecology offers articles of original research in full paper and note formats, as well as brief reviews and topical position papers.
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