Microplastics in the environment : development of a sample preparation method with further application and evaluation in fluvial and marine compartments
Plastics enter the environment via different sources and are transported and deposited there. They vary regarding polymer, density, colour, shape and size. Concerning the size, plastics are distinguished by their diameter in macroplastics, d ≥ 5 mm, and microplastics, d < 5 mm. Macroplastics, tha...
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| Format: | Thesis |
| Language: | English |
| Published: |
2021
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| Online Access: | https://oceanrep.geomar.de/id/eprint/58143/ https://oceanrep.geomar.de/id/eprint/58143/1/819390.pdf https://doi.org/10.18154/RWTH-2021-05018 |
| Summary: | Plastics enter the environment via different sources and are transported and deposited there. They vary regarding polymer, density, colour, shape and size. Concerning the size, plastics are distinguished by their diameter in macroplastics, d ≥ 5 mm, and microplastics, d < 5 mm. Macroplastics, that enter the environment, are often the origin for microplastics due to degradation and fragmentation. Based on numerous environmental sampling and numeric modelling the fate of macro- and microplastics in the environment can be understood. Thereby, the entry is caused exclusively by anthropogenic action and the following transport is mainly by freshwater systems. Plastics in the environment accumulate due to the material’s durability on water surfaces and in soils and sediments which are therefore considered as temporary sinks. The final sink for plastic in the environment is the sea bed. To better understand the accumulation processes, more environmental sampling is necessary. For the following sample preparation, a separation method was developed based on the density independent extraction with canola oil in an efficient and cost-effective way using a plastic free separation unit. This method was extensively validated and could thus be identified as an equivalent separation technique which was applied on two different environmental areas. First, samples from marine water and sediment in the Northeast Atlantic were taken not only to prove the applicability of the separation method with canola oil but also to identify microplastic concentration there with microscopic analysis and polymer identification. The results showed a microplastic accumulation and furthermore an increase in microplastic concentration with increasing water depths and therefore distance to the coast. Second, fluvial sediments from a regional river catchment in North Rhine Westphalia were taken and analysed by microscope and infrared spectroscopy. The sampling included depth profiles in the river’s floodplains, composite samples from the river bed ... |
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