葡萄栽培类型对土壤细菌群落耐药体代谢谱的影响

M. R. Mora, P. J. Gómez, C. Valbuena, A. Probanza
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引用次数: 4

摘要

在本工作中,研究了不同葡萄开发样品的土壤细菌群落,以阐明不同的农业管理技术(使用肥料、河水灌溉)可能对葡萄植物根际微生物群的影响。因此,通过使用和调整一系列传统上用于评估单特异性群体对抗生素耐药性的技术(Vitek®,ATB®和磁盘扩散方法),假定Cenophenoresistome是评估复杂社区对不同抗生素的全球耐药性的新方法。同样,细菌群落的代谢谱(CLPP:群落水平生理谱)也通过Biolog ECO®进行了研究。在细菌群落的功能结构方面,未开发土壤的代谢谱(多样性、动力学和CLPP)与受人为影响的土壤不同。本文从土地管理的角度,探讨了临床上抗生素耐药性产生的原因,特别是灌溉用水的污染,这可能与土壤群落的变化有关。本研究通过两种不同的方法(Cenophenoresistome和metabolic profiles)获得的结果彼此一致,表明这两种方法都可以作为人类改变的土壤状态的良好生物指标,这些土壤承载着自然生态系统。同样,人类也提出了土壤抗蚀体的概念,作为土壤对蚀变过程响应的生物指标,以及其在土壤修复过程中演变的可能预测因子。细菌群落,抗生素耐药性,葡萄耐药体,葡萄,群落水平生理特征,生物生态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of the Type of Vitis vinifera Cultivation in the Cenophenoresistome and Metabolic Profiling (CLPP) of Edaphic Bacterial Communities
: In the present work, bacterial soil communities of different grapevine exploitation samples are studied in order to elucidate the possible influence of different agrarian management techniques (use of fertilizers, irrigation with river water) may have on the rhizospheric microbiome of Vitis vinifera plants. Therefore, it is postulated the Cenophenoresistome as a novel methodology to evaluate complex communities’ global resistance against different antibiotics, by using and adjusting a serial of techniques traditionally applied to evaluate a monospecific population’s resistance against antibiotics (Vitek ® , ATB ® and disk diffusion methods). Likewise, the metabolic profile (CLPP: comunity level physiological profile) of bacterial communities is studied by Biolog ECO ® . In relation to the functional structure of the bacterial communities, it is observed that the metabolic profile (diversity, kinetics and CLPP) of unexploited soils differs from soils under anthropic influence. It is discussed the causes of resistance in the human clinic antibiotic treatment based on the agrarian management, especially with the contamination transmitted by irrigation water, which could be associated with changes in edaphic communities. The results obtained in the present study through two different approaches ( Cenophenoresistome and metabolic profiles) are consistent with each other, suggesting that both methods can be good bioindicators of the state of humankind-altered soils that host natural ecosystems. Likewise, the concept of Cenophenoresistome is proposed as a bioindicator of soil response to alteration processes, as well as a possible predictor of its evolution in edaphic remediation processes. Bacterial communities, antibiotic resistance, Cenophenoresistome , Vitis vinifera , comunity level physiological profile, Biolog ECO.
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