Endless journey of macroplastics in rivers: From hours to decades tracking in the Seine River

The EGU General Assembly Pub Date : 2021-04-19 DOI:10.5194/EGUSPHERE-EGU21-6027

R. Tramoy, J. Gaspéri, L. Colasse, M. Silvestre, P. Dubois, B. Tassin

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Abstract

Rivers are major pathways of plastics from lands into the Ocean. However, there is still a huge lack of knowledge on how riverine litter, including macroplastics, is transferred into the Ocean. Quantitative measurements of macroplastic emissions in rivers even suggest that a small fraction (0.001 to 3%) of the Mismanaged Plastic Waste (MPW) generated within a river basin finally reach the sea. Instead, macroplastics may remain within the catchment and on coastlines because of complex transport dynamics that delay the transfer of plastic debris. In order to better understand those dynamics, we performed tracking of riverine litter over time. First, hundreds of date-prints items were collected on riverbanks in the Seine estuary. The distribution of their Use-By-Dates suggest that riverine litter may remain stored on riverbanks for decades. Second, we performed real time tracking of floating and sub-floating bottles using GPS-trackers. Between March 2018 and April 2019, 39 trajectories were recorded in the estuary under tidal influence and 11 trajectories upriver, covering a wide range of hydrometeorological conditions. Results show a succession of stranding/remobilization episodes in combination with alternating upstream and downstream transport in the estuary related to tides. In the end, tracked bottles systematically stranded somewhere, for hours to weeks, from one to several times on different sites. The overall picture shows that different hydrometeorological phenomena interact with various time scales ranging from hours/days (high/low tides) to weeks/months (spring/neap tides and highest tides) and years (seasonal river flow, vegetation and geomorphological aspects). Thus, the fate of plastic debris is highly unpredictable with a chaotic-like transfer of plastic debris into the Ocean. The residence time of these debris is much longer than the transit time of water. This offers the opportunity to collect them before they get fragmented and/or reach the Sea.

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河流中巨塑料的无尽旅程:塞纳河中从几小时到几十年的追踪

河流是塑料从陆地进入海洋的主要途径。然而，对于包括宏观塑料在内的河流垃圾是如何进入海洋的，人们仍然非常缺乏了解。对河流中宏观塑料排放的定量测量甚至表明，河流流域产生的管理不善的塑料废物(MPW)中有一小部分(0.001至3%)最终进入海洋。相反，由于复杂的运输动力学延迟了塑料碎片的转移，宏观塑料可能会留在集水区和海岸线上。为了更好地了解这些动态，我们对河流垃圾进行了长期跟踪。首先，在塞纳河河口的河岸上收集了数百个日期印刷品。它们的使用期限分布表明，河流垃圾可能会在河岸上储存数十年。其次，我们使用gps跟踪器对浮瓶和次浮瓶进行实时跟踪。2018年3月至2019年4月，在河口潮汐影响下记录了39条轨迹，在上游记录了11条轨迹，涵盖了广泛的水文气象条件。结果表明，在潮汐作用下，河口存在一系列搁浅/再动员事件，并伴有上游和下游的交替迁移。最后，他们系统地追踪了搁浅在某个地方的瓶子，从几个小时到几个星期，从一次到几次在不同的地点。整体情况显示，不同的水文气象现象与不同的时间尺度相互作用，从小时/天(高潮/低潮)到周/月(春潮/小潮和高潮)和年(季节性河流流量、植被和地貌)。因此，塑料垃圾的命运是高度不可预测的，塑料垃圾像混乱一样进入海洋。这些碎片的停留时间比水的通过时间要长得多。这样就有机会在它们破碎和/或流入大海之前收集它们。

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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The EGU General Assembly

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