受长期塑料垃圾影响的红树林沉积物微生物群落对邻苯二甲酸二（2-乙基己基）酯的生物降解作用

Biodegradation of Di-2-Ethylhexyl Phthalate by Mangrove Sediment Microbiome Impacted by Chronic Plastic Waste.

作者信息

Saeng-Kla Kanphorn, Mhuantong Wuttichai, Termsaithong Teerasit, Pinyakong Onruthai, Sonthiphand Prinpida

机构信息

Department of Biology, Faculty of Science, Mahidol University, 272 Rama VI Road, Ratchathewi, Bangkok, 10400, Thailand.

National Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency, Pathumthani, 12120, Thailand.

出版信息

Mar Biotechnol (NY). 2024 Dec 3;27(1):19. doi: 10.1007/s10126-024-10399-5.

DOI:10.1007/s10126-024-10399-5

PMID:39625614

Abstract

Plastic pollution through the leaching of di(2-ethylhexyl) phthalate (DEHP), a widely used plasticizer, has led to the emergence of mangrove pollution. This study aimed to assess the DEHP removal efficiency of indigenous mangrove sediment microbiomes and identify key DEHP degraders using microcosm construction and metagenomic analysis. During the 35-day incubation period, the indigenous mangrove sediment microbiome, affected by chronic plastic pollution, demonstrated a 99% degradation efficiency of 200 mg/kg DEHP. Spearman's correlation analysis suggested that Myxococcales, Methyloligellaceae, Mycobacterium, and Micromonospora were potentially responsible for DEHP degradation. Based on PICRUSt2, the DEHP-degrading pathway in the sediment was predicted to be an anaerobic process involving catechol metabolism through catC, pcaD, pcaI, pcaF, and fadA. Efficient bacterial isolates from the mangrove sediment, identified as Gordonia sp. and Gordonia polyisoprenivorans, were able to degrade DEHP (65-97%) within 7 days and showed the ability to degrade other phthalate esters (PAEs).

摘要

通过广泛使用的增塑剂邻苯二甲酸二（2-乙基己基）酯（DEHP）的浸出造成的塑料污染，已导致红树林污染的出现。本研究旨在通过构建微观生态系统和宏基因组分析，评估本地红树林沉积物微生物群落对DEHP的去除效率，并鉴定关键的DEHP降解菌。在35天的培养期内，受长期塑料污染影响的本地红树林沉积物微生物群落对200mg/kg的DEHP表现出99%的降解效率。Spearman相关性分析表明，黏球菌目、甲基寡养菌科、分枝杆菌属和小单孢菌属可能是DEHP降解的原因。基于PICRUSt2，沉积物中DEHP的降解途径预计是一个厌氧过程，涉及通过catC、pcaD、pcaI、pcaF和fadA进行的儿茶酚代谢。从红树林沉积物中分离出的高效细菌菌株，鉴定为戈登氏菌属和聚异戊二烯戈登氏菌，能够在7天内降解DEHP（65-97%），并显示出降解其他邻苯二甲酸酯（PAE）的能力。

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受长期塑料垃圾影响的红树林沉积物微生物群落对邻苯二甲酸二（2-乙基己基）酯的生物降解作用

Biodegradation of Di-2-Ethylhexyl Phthalate by Mangrove Sediment Microbiome Impacted by Chronic Plastic Waste.

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