Insights into bacterial resistance to contaminants of emerging concerns and their biodegradation by marine bacteria

IF 5.3 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Emerging Contaminants Pub Date : 2024-03-14 DOI:10.1016/j.emcon.2024.100332

Hatice Turan , Bahia Khalfaoui-Hassani , Alisson Godino-Sanchez , Zulfatun Naimah , Mathieu Sebilo , Rémy Guyoneaud , Mathilde Monperrus

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Abstract

Contaminants of Emerging Concern (CECs) are human-made chemicals that remain unregulated. The continuous detection of CECs in aquatic ecosystems, due to their incomplete removal, emphasizes the importance of understanding their fate and impact on the environment and human health. The detrimental effects of CECs on marine eukaryotes are well documented in multiple studies. However, their impact on marine bacteria and their biodegradation by these organisms are not well understood. In this study, two marine bacteria, Priestia sp. 35 ODPABA G14 and Rhodococcus sp. 23 AHTN G14, previously isolated from submarine sediments, were used. These two strains were tested for their resistance as well as their capacity to degrade different classes of hydrophobic and hydrophilic CECs, including synthetic musks, UV filters, pesticides and pharmaceuticals. Both strains showed high resistance to all of the hydrophobic tested CECs even up to 500 mg L⁻¹. Only Ketoprofen was toxic to bacterial cells, particularly to Rhodococcus sp. starting at concentration as low as 4 mg L⁻¹. Furthermore, Priestia sp. and Rhodococcus sp. strains exhibited high biodegradation potential, especially for hydrophobic compounds. Although this may not apply to all pollutants, the data presented in this study suggest a positive correlation between marine bacterial resistance to CECs and their high biodegradation potentials.

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深入了解细菌对新出现的污染物的抗药性及其在海洋细菌中的生物降解作用

新关注污染物 (CEC) 是人类制造的化学品，目前仍未受到管制。由于 CECs 未被完全清除，因此在水生生态系统中不断发现 CECs，这凸显了了解 CECs 的归宿及其对环境和人类健康影响的重要性。CECs 对海洋真核生物的有害影响已在多项研究中得到充分证实。然而，它们对海洋细菌的影响以及这些生物对它们的生物降解却不甚了解。本研究使用了之前从海底沉积物中分离出来的两种海洋细菌，即 Priestia sp.测试了这两种菌株的抗性及其降解不同种类疏水性和亲水性 CEC 的能力，包括合成麝香、紫外线过滤剂、杀虫剂和药物。这两种菌株对所有测试的疏水性 CEC 都表现出很高的抗性，甚至高达 500 mg L-1。只有酮洛芬对细菌细胞有毒性，特别是在浓度低至 4 毫克/升时对 Rhodococcus sp.此外，Priestia sp.和 Rhodococcus sp.菌株表现出很高的生物降解潜力，尤其是对疏水性化合物。虽然这可能不适用于所有污染物，但本研究提供的数据表明，海洋细菌对 CECs 的抗性与其高生物降解潜力之间存在正相关。

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

Emerging Contaminants Medicine-Public Health, Environmental and Occupational Health

CiteScore

10.00

自引率

6.70%

发文量

审稿时长

44 days

期刊介绍： Emerging Contaminants is an outlet for world-leading research addressing problems associated with environmental contamination caused by emerging contaminants and their solutions. Emerging contaminants are defined as chemicals that are not currently (or have been only recently) regulated and about which there exist concerns regarding their impact on human or ecological health. Examples of emerging contaminants include disinfection by-products, pharmaceutical and personal care products, persistent organic chemicals, and mercury etc. as well as their degradation products. We encourage papers addressing science that facilitates greater understanding of the nature, extent, and impacts of the presence of emerging contaminants in the environment; technology that exploits original principles to reduce and control their environmental presence; as well as the development, implementation and efficacy of national and international policies to protect human health and the environment from emerging contaminants.

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