Key Chemical Soil Parameters for the Assembly of Rhizosphere Bacteria Associated with Avocado Cv Hass Grafted on Landrace Rootstocks.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Mateo Córdoba-Agudelo, Juan C Arboleda-Rivera, David A Borrego-Muñoz, Camilo A Ramírez-Cuartas, Juan E Pérez-Jaramillo
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Abstract

Avocado cultivation holds significant economic importance in many countries, ranking Colombia as the fifth largest global producer. Particularly, the Hass cultivar plays a pivotal role in Colombia's avocado industry, especially in the Department of Antioquia, the primary export region. This cultivar is grown under diverse soil and climate conditions and exhibits considerable genetic polymorphism due to the hybridization of varieties of agronomic significance, leading to a diverse array of landrace rootstocks. However, the role of soil conditions and rootstock genotype in structuring rhizosphere bacterial communities is still lacking. In addressing this knowledge gap, we investigated the influence of two soil conditions on the structure of rhizosphere bacterial communities associated with two landrace genotypes of Persea americana cv. Hass, utilizing 16S rRNA sequencing. Notably, no significant differences related to genotypes were observed. This study reports that the rhizosphere bacterial microbiome remains consistent across avocado landrace rootstocks, while variations in key parameters such as phosphorus, pH, Mg, and Ca drive distinct rhizosphere effects. Our results reveal that despite the soils having similar management, increases in these crucial parameters can lead to bacterial communities with lower alpha diversity and a more complex co-occurrence network. In addition, we found substantial variations in beta diversity, bacterial composition, and metagenome predictions between the two farms, underscoring the role of soil variables in shaping the bacterial microbiome. These findings provide valuable insights into the factors influencing the bacterial communities that may play a role in the health and productivity of crops with agro-industrial potential, such as Hass avocado.

与嫁接在陆生砧木上的哈斯鳄梨根瘤菌相关的关键土壤化学参数。
牛油果种植在许多国家都具有重要的经济意义,哥伦比亚是全球第五大牛油果生产国。尤其是哈斯(Hass)栽培品种在哥伦比亚的鳄梨产业中起着举足轻重的作用,特别是在主要出口地区安蒂奥基亚省。这种栽培品种生长在不同的土壤和气候条件下,由于农艺学意义上的品种杂交,表现出相当大的遗传多态性,从而产生了一系列不同的陆生砧木。然而,土壤条件和根茎基因型在根瘤菌群落结构中的作用仍然缺乏研究。针对这一知识空白,我们利用 16S rRNA 测序技术研究了两种土壤条件对与两种陆生砧木基因型哈斯(Persea americana cv. Hass)相关的根瘤菌群落结构的影响。值得注意的是,没有观察到与基因型有关的明显差异。本研究报告指出,不同牛油果陆地栽培砧木的根瘤菌微生物组保持一致,而磷、pH 值、镁和钙等关键参数的变化会对根瘤菌产生不同的影响。我们的研究结果表明,尽管土壤的管理类似,但这些关键参数的增加会导致细菌群落的α-多样性降低,共生网络更加复杂。此外,我们还发现两个农场在贝塔多样性、细菌组成和元基因组预测方面存在很大差异,这凸显了土壤变量在塑造细菌微生物组方面的作用。这些发现为我们深入了解影响细菌群落的因素提供了宝贵的视角,这些因素可能会对哈斯鳄梨等具有农用工业潜力的作物的健康和产量产生影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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