Environment, plant genetics, and their interaction shape important aspects of sunflower rhizosphere microbial communities

Clifton P Bueno de Mesquita, Corinne M. Walsh, Ziv Attia, Brady D Koehler, Zachary J Tarble, David L. Van Tassel, Nolan C. Kane, Brent S Hulke
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Abstract

Associations with soil microorganisms are crucial for plants' overall health and functioning. While much work has been done to understand drivers of rhizosphere microbiome structure and function, the relative importance of geography, climate, soil properties, and plant genetics remains unclear, as results have been mixed and comprehensive studies across many sites and genotypes are limited. Rhizosphere microbiomes are crucial for crop resistance to pathogens, stress tolerance, nutrient availability, and ultimately yield. Here we quantify the relative roles of plant genotype, environment, and their interaction in shaping soil rhizosphere communities, using 16S and ITS gene sequencing of rhizosphere soils from 10 common sunflower (Helianthus annuus) genotypes from 15 sites across the Great Plains of the United States. While site generally outweighed genotype overall in terms of effects on archaeal, bacterial and fungal richness, community composition, and taxa relative abundances, there was also a significant interaction such that genotype exerted a significant influence on archaeal, bacterial and fungal microbiomes in certain sites. Site effects were attributed to a combination of spatial distance and differences in climate and soil properties. Microbial taxa that were previously associated with resistance to the fungal necrotrophic pathogen Sclerotinia were present in most sites but differed significantly in relative abundance across sites. Our results have implications for plant breeding and agronomic microbiome manipulations for agricultural improvement across different geographic regions.
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环境、植物遗传及其相互作用塑造了向日葵根瘤微生物群落的重要方面
与土壤微生物的联系对植物的整体健康和功能至关重要。虽然已经做了很多工作来了解根瘤菌群结构和功能的驱动因素,但地理、气候、土壤特性和植物遗传学的相对重要性仍不清楚,因为结果参差不齐,对许多地点和基因型的全面研究也很有限。根瘤微生物组对作物抵抗病原体、抗逆性、养分供应以及最终产量至关重要。在这里,我们利用 16S 和 ITS 基因测序技术,对美国大平原 15 个地点 10 种普通向日葵(Helianthus annuus)基因型的根瘤土壤进行了研究,量化了植物基因型、环境及其相互作用在形成土壤根瘤群落中的相对作用。就对古细菌、细菌和真菌丰富度、群落组成和类群相对丰度的影响而言,地点总体上大于基因型,但也存在显著的交互作用,即基因型对某些地点的古细菌、细菌和真菌微生物群有显著影响。地点效应归因于空间距离以及气候和土壤特性的差异。以前与抵抗真菌坏死性病原体 Sclerotinia 有关的微生物类群出现在大多数地点,但不同地点的相对丰度有显著差异。我们的研究结果对不同地理区域的植物育种和农艺微生物组操作具有借鉴意义。
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