Effect of dumped chemical weapon on the Baltic Sea microbiota

N. Medvedeva, Y. Polyak, I. Kuzikova
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引用次数: 2

Abstract

Seawater contamination with mustard gas and its derivatives substantially affects marine microorganisms. The mustard gas hydrolysis products (MGHPs) cause depletion of the species composition of microbiocenosis, as suggested by decreases in the Shannon and Pielou indices and the increase in the dominance index. Significant ecological shifts manifested as the decrease in the similarity indices. Decreased bacterial diversity suggests growth of a tolerant opportunistic species. From among bacterial cultures tolerant to mustard gas hydrolysis products the MGHPs-degrading microorganisms were isolated. The isolates were identified as Flavobacterium, Alcaligenes, Bacillus, or Pseudomonas spp. The main properties of these microorganisms are the tolerance to MGHPs, and the ability to utilize thiodiglycol. MGHPs-degrading bacteria can use mustard gas hydrolysis products as the sole source of carbon and energy at the organochlorine substances and thiodiglycol concentrations up to 240 mg/l and 6 g/l, respectively. The results suggest a potential for MGHPs biodegradation by natural occurring populations of near-bottom water and sediment microorganisms. Reduction in the species diversity of the marine microbiota suggests a decrease in the stability of the biosystem as a whole.
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倾倒化学武器对波罗的海微生物群的影响
芥子气及其衍生物污染海水会严重影响海洋微生物。芥子气水解产物(MGHPs)导致微生物病的物种组成减少,Shannon指数和Pielou指数下降,优势度指数上升。显著的生态转移表现为相似性指数的下降。细菌多样性的减少表明一种具有耐受性的机会性物种的生长。从对芥子气水解产物耐受的细菌培养物中分离出mghps降解微生物。分离菌株鉴定为黄杆菌、碱性杆菌、芽孢杆菌和假单胞菌,这些微生物的主要特性是对MGHPs的耐受性和对硫代二甘醇的利用能力。在有机氯物质和硫代二甘醇浓度分别为240 mg/l和6 g/l时,mghps降解菌可以将芥子气水解产物作为碳和能量的唯一来源。结果表明,天然存在的近底水和沉积物微生物群可能对MGHPs进行生物降解。海洋微生物群物种多样性的减少表明整个生物系统的稳定性下降。
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