了解多物种生态毒性评价在石墨烯家族材料环境风险表征中的有限整合背后的因素-文献计量学综述

C Pub Date : 2023-09-25 DOI:10.3390/c9040090
Ildikó Fekete-Kertész, Krisztina László, Mónika Molnár
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引用次数: 1

摘要

尽管石墨烯族材料(GFMs)在各种应用中具有很大的前景,但在生态毒理学和与其潜在环境影响相关的环境风险评估方面仍然存在重大的知识空白。在这里,我们基于细致的文献计量学研究,对已发表的GFMs生态毒性研究提供了一个批判性的视角。根据我们综述论文的结果,为了填补目前的关键知识空白,建议考虑以下问题:对GFMs在环境相关浓度下的影响进行更多的研究,并对海洋和陆地生物进行更多的实地和实验室研究。还建议在与环境更相关的条件下评估GFMs的生态毒性,例如在营养链转移研究中以及在微观或中生态系统中通过多物种暴露,以及深入了解GFMs与环境污染物之间的相互作用。研究还表明,尽管在不同的环境隔间中广泛检测到GFMs,但在复杂的测试系统中,分层营养组织或营养转移研究的潜在影响明显不足。其中一个主要原因被确定为在复杂的陆地测试系统或包含沉积阶段的水生微环境和中环境研究中,GFMs的物理化学特征的困难。在这些复杂的测试系统中,缺乏充分表征GFMs的工具可能会阻碍研究人员在环境相关的测试条件下进行实验。在未来几年,对这些复杂测试系统的基础研究将继续更好地了解GFM毒性影响不同环境隔间生物的机制,并确保其未来的安全和可持续使用。
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Towards Understanding the Factors behind the Limited Integration of Multispecies Ecotoxicity Assessment in Environmental Risk Characterisation of Graphene-Family Materials—A Bibliometric Review
Even though graphene-family materials (GFMs) hold great promise for various applications, there are still significant knowledge gaps in ecotoxicology and environmental risk assessment associated with their potential environmental impacts. Here, we provide a critical perspective on published ecotoxicity studies of GFMs based on meticulous bibliometric research. Based on the results of our review paper, in order to fill in the current critical knowledge gaps, the following issues are recommended for consideration: performing more studies on GFMs’ effects at environmentally relevant concentrations and more field and laboratory studies with marine and terrestrial organisms. It is also recommended to assess the ecotoxicity of GFMs in more environmentally relevant conditions, such as in trophic chain transfer studies and by multispecies exposure in micro- or mesocosms, as well as gaining insights into the interactive effects between GFMs and environmental pollutants. It was also revealed that despite their widespread detection in different environmental compartments the potential impacts of GFMs in complex test systems where hierarchical trophic organisation or trophic transfer studies are significantly under-represented. One of the main causes was identified as the difficulties in the physicochemical characterisation of GFMs in complex terrestrial test systems or aquatic micro- and mesocosm studies containing a sediment phase. The lack of tools for adequate characterisation of GFMs in these complex test systems may discourage researchers from conducting experiments under environmentally relevant test conditions. In the coming years, fundamental research about these complex test systems will continue to better understand the mechanism behind GFM toxicity affecting organisms in different environmental compartments and to ensure their safe and sustainable use in the future.
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