Wagner Martin, Scherer Christian, Alvarez-Muñoz Diana, Brennholt Nicole, Bourrain Xavier, Buchinger Sebastian, Fries Elke, Grosbois Cécile, Klasmeier Jörg, Marti Teresa, Rodriguez-Mozaz Sara, Urbatzka Ralph, Vethaak A Dick, Winther-Nielsen Margrethe, Reifferscheid Georg
Department of Aquatic Ecotoxicology, Goethe University Frankfurt am Main, Max-von-Laue-Str. 13, Frankfurt, 60438 Germany.
Catalan Institute for Water Research (ICRA), Girona, 17003 Spain.
Environ Sci Eur. 2014;26(1):12. doi: 10.1186/s12302-014-0012-7. Epub 2014 Jul 9.
While the use of plastic materials has generated huge societal benefits, the 'plastic age' comes with downsides: One issue of emerging concern is the accumulation of plastics in the aquatic environment. Here, so-called microplastics (MP), fragments smaller than 5 mm, are of special concern because they can be ingested throughout the food web more readily than larger particles. Focusing on freshwater MP, we briefly review the state of the science to identify gaps of knowledge and deduce research needs.
Environmental scientists started investigating marine (micro)plastics in the early 2000s. Today, a wealth of studies demonstrates that MP have ubiquitously permeated the marine ecosystem, including the polar regions and the deep sea. MP ingestion has been documented for an increasing number of marine species. However, to date, only few studies investigate their biological effects. The majority of marine plastics are considered to originate from land-based sources, including surface waters. Although they may be important transport pathways of MP, data from freshwater ecosystems is scarce. So far, only few studies provide evidence for the presence of MP in rivers and lakes. Data on MP uptake by freshwater invertebrates and fish is very limited.
While the research on marine MP is more advanced, there are immense gaps of knowledge regarding freshwater MP. Data on their abundance is fragmentary for large and absent for small surface waters. Likewise, relevant sources and the environmental fate remain to be investigated. Data on the biological effects of MP in freshwater species is completely lacking. The accumulation of other freshwater contaminants on MP is of special interest because ingestion might increase the chemical exposure. Again, data is unavailable on this important issue.
MP represent freshwater contaminants of emerging concern. However, to assess the environmental risk associated with MP, comprehensive data on their abundance, fate, sources, and biological effects in freshwater ecosystems are needed. Establishing such data critically depends on a collaborative effort by environmental scientists from diverse disciplines (chemistry, hydrology, ecotoxicology, etc.) and, unsurprisingly, on the allocation of sufficient public funding.
虽然塑料材料的使用给社会带来了巨大益处,但“塑料时代”也存在不利之处:一个新出现的令人担忧的问题是塑料在水生环境中的积累。在此,所谓的微塑料(MP),即尺寸小于5毫米的碎片,尤其令人担忧,因为它们比大颗粒更容易在整个食物网中被摄取。聚焦于淡水微塑料,我们简要回顾科学现状,以找出知识空白并推断研究需求。
环境科学家在21世纪初开始研究海洋(微)塑料。如今,大量研究表明微塑料已普遍渗透到海洋生态系统中,包括极地地区和深海。越来越多的海洋物种被记录到摄取微塑料。然而,迄今为止,只有少数研究调查了它们的生物学效应。大多数海洋塑料被认为源自陆地来源,包括地表水。尽管它们可能是微塑料的重要运输途径,但来自淡水生态系统的数据却很稀少。到目前为止,只有少数研究提供了河流和湖泊中存在微塑料的证据。关于淡水无脊椎动物和鱼类摄取微塑料的数据非常有限。
虽然对海洋微塑料的研究更为先进,但关于淡水微塑料仍存在巨大的知识空白。关于它们在大型地表水的丰度数据不完整,而在小型地表水则完全没有相关数据。同样,相关来源和环境归宿仍有待研究。关于微塑料对淡水物种生物学效应的数据完全缺乏。微塑料上其他淡水污染物的积累特别令人关注,因为摄取可能会增加化学暴露。同样,关于这个重要问题的数据也没有。
微塑料是新出现的令人担忧的淡水污染物。然而,要评估与微塑料相关的环境风险,需要关于它们在淡水生态系统中的丰度、归宿、来源和生物学效应的全面数据。建立这些数据关键取决于来自不同学科(化学、水文学、生态毒理学等)的环境科学家的共同努力,而且不出所料,还取决于充足的公共资金分配。
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