State of the Art Offshore In Situ Monitoring of Microplastic

D. Calore, N. Fraticelli
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引用次数: 2

Abstract

Microplastics make up a significant amount of the overall quantity of plastic debris that is present in seawater. However, their detection and monitoring at sea is cost-inefficient and challenging; typically, it consists of water sampling with special manta nets, followed by long (i.e., weeks) laboratory analysis to obtain valid results. The analysis of the state-of-the-art technologies capable of monitoring/detecting microplastics in the sea (typically in coastal areas) presented in this paper shows that there are currently no specific tools to obtain quick measurements. The classic multiparametric probes are useless and the contribution of their relative chemical–physical parameters to determine the presence of microplastics in water is insignificant. The evolution in the last decade of hardware and software tools for capturing hologram images and related post-processing seems to be one of the most effective methods available currently for the rapid detection of microplastics in seawater. In particular, some results of monitoring campaigns carried out in the Adriatic Sea using this type of technology are reported. The acquired data are analyzed and discussed, highlighting their strengths and weaknesses, with indications of the possible methodologies that could be used to improve these systems.
海洋微塑料原位监测技术现状
微塑料占海水中塑料碎片总量的很大一部分。然而,它们在海上的探测和监测成本低且具有挑战性;通常,它包括用特殊的蝠鲼网进行水样取样,然后进行长时间(即数周)的实验室分析以获得有效的结果。本文对能够监测/检测海洋(通常在沿海地区)微塑料的最先进技术的分析表明,目前没有特定的工具来获得快速测量。经典的多参数探针是无用的,它们的相对化学-物理参数对确定水中微塑料存在的贡献是微不足道的。在过去十年中,用于捕获全息图像和相关后处理的硬件和软件工具的发展似乎是目前可用于快速检测海水中微塑料的最有效方法之一。特别报告了在亚得里亚海使用这种技术进行的监测运动的一些结果。对获得的数据进行分析和讨论,突出其优点和缺点,并指出可用于改进这些系统的可能方法。
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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