Spatial variation of bacterial and fungal communities of estuarine seagrass leaf microbiomes

IF 1.6 4区 环境科学与生态学 Q3 ECOLOGY
S. Trevathan-Tackett, T. Allnutt, C. Sherman, M. Richardson, T. Crowley, P. Macreadie
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引用次数: 13

Abstract

The health of seagrass plants, and thereby the ecosystems they form, is linked to their associated microbial communities. However, the role of the microbiome in holobiont function and health remains poorly understood for most seagrass species and environmental pressures, and there is, therefore, a need to better understand the drivers behind the formation of and external influences on the seagrass microbiome. Using a core microbiome framework, we characterised the leaf microbiomes of 6 estuarine seagrass populations after a precipitation event to explore how the microbiomes vary across different sites and salinities over a regional spatial scale. We found that each estuary had distinct core bacterial community structures (beta-diversity), but shared a more similar fungal core community structure. We hypothesise that the differences in the bacterial members of the microbiomes among estuaries are generally the result of each estuary being influenced by unique watersheds and sources of prokaryotes. In contrast, the similarity in the core fungal communities suggests that the eukaryotic components of the microbiomes are likely under selection or result from similar colonisation pathway(s). We also found that the bacterial taxa driving the differences among estuaries were linked to the salinity of the estuary, likely due to (1) the general epibiotic nature of colonisation (i.e. watershed source and exposure) and (2) members or functional groups within the leaf microbiome assisting seagrasses in coping with the extreme salinities. These results are valuable for linking microbiomes to the resilience of seagrasses living within dynamic estuaries experiencing a range of physicochemical pressures.
河口海草叶片微生物群落细菌和真菌群落的空间变异
海草植物的健康,以及它们形成的生态系统,与它们相关的微生物群落息息相关。然而,对于大多数海草物种和环境压力而言,微生物组在全息生物功能和健康中的作用仍然知之甚少,因此,有必要更好地了解海草微生物组形成背后的驱动因素和外部影响。利用核心微生物组框架,我们对降水事件后6个河口海草种群的叶片微生物组进行了表征,以探索微生物组在区域空间尺度上不同地点和盐度的变化。我们发现每个河口都有不同的核心细菌群落结构(β -多样性),但真菌核心群落结构更为相似。我们假设河口微生物组细菌成员的差异通常是由于每个河口受到独特的流域和原核生物来源的影响。相反,核心真菌群落的相似性表明,微生物组的真核成分可能是经过选择的,或者是类似定植途径的结果。我们还发现,导致河口间差异的细菌分类群与河口的盐度有关,这可能是由于:(1)定植的一般表观生物性质(即流域来源和暴露)和(2)叶片微生物组中的成员或功能群协助海草应对极端盐度。这些结果对于将微生物组与生活在动态河口中经历一系列物理化学压力的海草的恢复力联系起来是有价值的。
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来源期刊
Aquatic Microbial Ecology
Aquatic Microbial Ecology 环境科学-海洋与淡水生物学
CiteScore
3.30
自引率
0.00%
发文量
8
审稿时长
3.0 months
期刊介绍: AME is international and interdisciplinary. It presents rigorously refereed and carefully selected Research Articles, Reviews and Notes, as well as Comments/Reply Comments (for details see AME 27:209), Opinion Pieces (previously called ''As I See It'') and AME Specials. For details consult the Guidelines for Authors. Papers may be concerned with: Tolerances and responses of microorganisms to variations in abiotic and biotic components of their environment; microbial life under extreme environmental conditions (climate, temperature, pressure, osmolarity, redox, etc.). Role of aquatic microorganisms in the production, transformation and decomposition of organic matter; flow patterns of energy and matter as these pass through microorganisms; population dynamics; trophic interrelationships; modelling, both theoretical and via computer simulation, of individual microorganisms and microbial populations; biodiversity. Absorption and transformation of inorganic material; synthesis and transformation of organic material (autotrophic and heterotrophic); non-genetic and genetic adaptation; behaviour; molecular microbial ecology; symbioses.
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