Effects对居住在保加利亚黑海水域的红鲻鱼种群现状的人为和环境压力

Ivelina Zlateva, Violin Raykov, Albena Alexandrova, Petya Ivanova, Nesho Chipev, Kremena Stefanova, Nina Dzhembekova, Valentina Doncheva, Violeta Slabakova, Elitsa Stefanova, Svetlana Mihova, Nadezhda Valcheva, Ognyana Hristova, Boryana Dzhurova, Dimitar Dimitrov, Almira Georgieva, Elina Tsvetanova, Madlena Andreeva, Ivan Popov, Mariya Yankova, Yordan Raev, Konstantin Petrov
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引用次数: 1

摘要

The红鲻鱼(Mullus barbatus Linnaeus, 1758)是保加利亚黑海生态系统和渔业的主要物种;然而,现有的关于人口状况的知识非常少。本研究旨在评估居住在黑海保加利亚水域的barbatus种群的健康状况和适应潜力。我们的研究结果表明,barbatus种群暴露于各种人为和环境压力。利用研究区北部和南部地区标本中具有代表性的遗传、形态、生化和化学生物标志物对该物种的状况进行了评估。基于mtDNA标记,遗传分析显示低单倍型和核苷酸多样性,通常在过度开发或“受威胁”的种群中观察到。检查标本的形态学没有发现明显的分化模式。除铝和铬外,鱼类中金属和多环芳烃的浓度均低于监管阈值。来自南部地区的样本比来自北部地区的样本摄入更多的微塑料。从南部地区采集的大多数标本也表现出氧化应激水平升高和抗氧化防御能力下降,这可以解释为它们已经达到适应潜力极限的早期迹象。迫切需要进一步研究应激环境对黑海生物群的综合影响,并在分子和细胞水平上采用新的指标和阈值,以便充分监测海洋环境及其生物群的生态状况。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of anthropogenic and environmental stressors on the current status of red mullet (Mullus barbatus L., 1758) populations inhabiting the Bulgarian Black Sea waters
 The red mullet (Mullus barbatus Linnaeus, 1758) is a keynote species for the Bulgarian Black Sea ecosystem and fisheries; nevertheless, existing knowledge on population status is very scarce. The present study was intended to assess the health status and adaptive potential of M. barbatus populations inhabiting the Bulgarian waters of the Black Sea. Our findings revealed that populations of M. barbatus are exposed to a variety of anthropogenic and environmental stressors. The species’ status was assessed using representative genetic, morphological, biochemical and chemical biomarkers from specimens obtained in the research area’s northern and southern regions. Based on mtDNA markers, genetic analysis revealed low haplotype and nucleotide diversity, typically observed in overexploited or “threatened” populations. Examining the morphology of the specimens revealed no discernible pattern of differentiation. Except for aluminium and chrome, metal and PAH concentrations in fish were below the regulatory thresholds. The specimens from the southern region ingested more microplastics than those from the northern region. The majority of specimens collected from the southern region also exhibited elevated levels of oxidative stress and decreased antioxidant defence, which can be interpreted as an early indication that they had reached the limits of their adaptive potential. Further research on the composite effects of the stressogenic environment on the Black Sea biota are critically needed, as well as the introduction of new indicators and thresholds at molecular and cellular levels for adequate monitoring of both the ecological state of the marine environment and its biota.
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