Soil properties predict below-ground community structure, but not nematode microbiome patterns in semi-arid habitats

IF 4.5 1区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Ecology Pub Date : 2024-08-22 DOI:10.1111/mec.17501
Tiago José Pereira, Alejandro De Santiago, Holly M. Bik
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Abstract

Microbial and microeukaryotic communities are extremely abundant and diverse in soil habitats where they play critical roles in ecosystem functioning and services that are essential to soil health. Soil biodiversity is influenced by above-ground (vegetation) and below-ground factors (soil properties), which together create habitat-specific conditions. However, the compound effects of vegetation and soil properties on soil communities are less studied or often focused on one component of the soil biota. Here, we integrate metabarcoding (16S and 18S rRNA genes) and nematode morphology to assess the effects of habitat and soil properties shaping microbial and microeukaryotic communities as well as nematode-associated microbiomes. We show that both vegetation and soil properties (soil bulk density) were major factors structuring microbial and microeukaryotic communities in semi-arid soil habitats. Despite having lower nutrients and lower pH, denser soils displayed significantly higher alpha diversity than less dense soils across datasets. Nematode-associated microbiomes have lower microbial diversity, strongly differ from soil microbes and are more likely to respond to microscale variations among samples than to vegetation or soil bulk density. Consequently, different nematode lineages and trophic groups are likely to display similar associated microbiomes when sharing the same microhabitat. Different microbiome taxa were enriched within specific nematode lineages (e.g. Mycobacterium, Candidatus Cardinium) highlighting potentially new species-specific associations that may confer benefits to their soil nematode hosts. Our findings highlight the importance of exploring above- and below-ground effects to assess community structure in terrestrial habitats, and how fine-scale analyses are critical for understanding patterns of host-associated microbiomes.

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土壤特性能预测半干旱生境的地下群落结构,但不能预测线虫微生物组模式。
微生物和微真核细胞群落在土壤栖息地中极为丰富和多样,它们在生态系统功能和服务中发挥着关键作用,对土壤健康至关重要。土壤生物多样性受地上(植被)和地下因素(土壤特性)的影响,这些因素共同创造了特定的生境条件。然而,关于植被和土壤特性对土壤群落的复合影响的研究较少,或者通常只关注土壤生物区系中的一个组成部分。在这里,我们整合了代谢编码(16S 和 18S rRNA 基因)和线虫形态学,以评估栖息地和土壤特性对微生物和微真核细胞群落以及线虫相关微生物组的影响。我们的研究表明,植被和土壤特性(土壤容重)是构建半干旱土壤生境中微生物和微真核生物群落的主要因素。尽管养分和 pH 值较低,但在所有数据集中,密度较高的土壤的阿尔法多样性明显高于密度较低的土壤。线虫相关微生物群落的微生物多样性较低,与土壤微生物有很大不同,而且更有可能对样本间的微观变化而不是植被或土壤容重做出反应。因此,不同的线虫品系和营养群在共享相同的微生境时可能会显示出相似的相关微生物组。不同的微生物群分类群在特定的线虫类群(如分枝杆菌、Candidatus Cardinium)中富集,突显了可能对其土壤线虫宿主有益的新物种特异性关联。我们的研究结果凸显了探索地上和地下效应对评估陆生栖息地群落结构的重要性,以及精细尺度分析对了解宿主相关微生物群模式的关键作用。
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来源期刊
Molecular Ecology
Molecular Ecology 生物-进化生物学
CiteScore
8.40
自引率
10.20%
发文量
472
审稿时长
1 months
期刊介绍: Molecular Ecology publishes papers that utilize molecular genetic techniques to address consequential questions in ecology, evolution, behaviour and conservation. Studies may employ neutral markers for inference about ecological and evolutionary processes or examine ecologically important genes and their products directly. We discourage papers that are primarily descriptive and are relevant only to the taxon being studied. Papers reporting on molecular marker development, molecular diagnostics, barcoding, or DNA taxonomy, or technical methods should be re-directed to our sister journal, Molecular Ecology Resources. Likewise, papers with a strongly applied focus should be submitted to Evolutionary Applications. Research areas of interest to Molecular Ecology include: * population structure and phylogeography * reproductive strategies * relatedness and kin selection * sex allocation * population genetic theory * analytical methods development * conservation genetics * speciation genetics * microbial biodiversity * evolutionary dynamics of QTLs * ecological interactions * molecular adaptation and environmental genomics * impact of genetically modified organisms
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Population Genetics and Invasion History of the European Starling Across Aotearoa New Zealand. An Early-Life Disruption of Gut Microbiota Has Opposing Effects on Parasite Resistance in Two Host Species. Genetic Monitoring of a Lethal Control Programme for Wild Canids With Complex Mating Strategies. Elevational Range Impacts Connectivity and Predicted Deme Sizes From Models of Habitat Suitability. Michael C. Whitlock-Recipient of the 2024 Molecular Ecology Prize.
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