Natural sea water and artificial sea water are not equivalent in plastic leachate contamination studies.

Open research Europe Pub Date : 2024-10-17 eCollection Date: 2024-01-01 DOI:10.12688/openreseurope.17112.2
Clemens Vinzenz Ullmann, Maria Ina Arnone, Eva Jimenez-Guri
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Abstract

Background: Plastic contamination is one of the concerns of our age. With more than 150 million tons of plastic floating in the oceans, and a further 8 million tons arriving to the water each year, in recent times the scientific community has been studying the effects these plastics have on sea life both in the field and with experimental approaches. Laboratory based studies have been using both natural sea water and artificial sea water for testing various aspects of plastic contamination, including the study of chemicals leached from the plastic particles to the water. We set out to test this equivalence, looking at the leaching of heavy metals form plastic particles.

Methods: We obtained leachates of polyvinyl chloride plastic pre-production nurdles both in natural and artificial sea water and determined the elements in excess from untreated water by Inductively coupled plasma - optical emission spectrometry. We then used these different leachates to assess developmental success in the tunicate Ciona intestinalis by treating fertilised eggs through their development to hatched larvae.

Results: Here we report that chemical analysis of polyvinyl chloride plastic pre-production pellet leachates shows a different composition in natural and artificial sea water. We find that the zinc leaching from the plastic particles is up to five times higher in natural seawater than in artificial seawater, and this can have an effect in the toxicological studies derived. Indeed, we observe different effects in the development of C. intestinalis when using leachates in natural or artificial sea water. We also observe that not all artificial sea waters are suitable for studying the development of the tunicate C. intestinalis.

Conclusions: Our results show that, at least in this case, both types of water are not equivalent to produce plastic leachaetes and suggest that precaution should be taken when conclusions are derived from results obtained in artificial sea water.

在塑料沥滤液污染研究中,天然海水和人工海水并不等同。
背景:塑料污染是我们这个时代关注的问题之一。海洋中漂浮着超过 1.5 亿吨塑料,每年还有 800 万吨塑料进入海洋,近来,科学界一直在实地和通过实验方法研究这些塑料对海洋生物的影响。实验室研究一直在使用天然海水和人工海水来测试塑料污染的各个方面,包括研究从塑料微粒沥滤到水中的化学物质。我们开始测试这种等效性,研究塑料微粒中重金属的沥滤情况:方法:我们从天然海水和人工海水中获得了 PVC 塑料预制件的浸出物,并通过电感耦合等离子体-光发射光谱法测定了未经处理的水中的过量元素。然后,我们利用这些不同的浸出液,通过处理受精卵到孵化幼虫的整个过程,来评估鳞栉水母(Ciona intestinalis)的发育成功率:结果:我们在此报告,PVC 塑料生产前颗粒浸出物的化学分析显示,天然海水和人工海水中的成分不同。我们发现,在人工海水中,从塑料颗粒中沥滤出的锌减少了五倍,这可能会对毒理学研究产生影响。事实上,我们观察到天然海水和人工海水中的沥滤液对肠道贻贝的发育产生了不同的影响。我们还观察到,并非所有的人工海水都适合研究肠球虫的发育:我们的研究结果表明,至少在这种情况下,这两种水并不等同于能产生可塑浸出液,并建议在根据人工海水中的结果得出结论时应谨慎行事。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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