Py-GC/MS as a complementary technique for the chemical characterization of small microplastics (<100 μm) in polar samples
Introduction Microplastics are a class of emerging pollutants of great concern, since they are widely distributed in the environment and biota, and have also been found in polar regions (Iannilli et al., 2019). Currently there are no standard methods for the identification and quantification of micr...
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| Other Authors: | , , , |
| Format: | Conference Object |
| Language: | English |
| Published: |
2021
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| Subjects: | |
| Online Access: | https://zenodo.org/record/5590114 https://doi.org/10.5281/zenodo.5590114 |
| Summary: | Introduction Microplastics are a class of emerging pollutants of great concern, since they are widely distributed in the environment and biota, and have also been found in polar regions (Iannilli et al., 2019). Currently there are no standard methods for the identification and quantification of microplastics in environmental samples. Micro-FTIR is a nondestructive spectroscopic technique, that allows polymer identification and quantification in abundance and weight (Corami et al. 2020 and 2021); thanks to the instrument's imaging, particle morphology and size can be evaluated. Mass-based analytical methods – like pyrolysis gas chromatography-mass spectrometry (Pyr-GC/MS) - lack the information on particle size and morphology, but they are time efficient and permit a successful identification of polymer types and quantification of plastic weight (Müller et al., 2020). The cross-validation among techniques allows the standardization of pretreatment and analytical methods. In this abstract, we describe the state of the art of our work, whose aim is a cross-validation of two different techniques: quantification (i.e., abundance and weight) and simultaneous identification of microplastic particles (MPs) and small MPs (SMPs) using Micro-FTIR, and identification and quantification of MPs and SMPs using Pyr-GC/MS. These techniques will be employed for the analysis of polar samples. Activities The first phase of the work was dedicated to recognizing the characteristic pyrolysis products necessary to identify some standard polymers plastic materials. Preliminary results were obtained from different environmental matrices. Few water samples from Venice Lagoon and few permafrost samples collected in Svalbard Islands were analyzed via Micro-FTIR and Pyr/GC-MS. The identification of the single peaks in chromatograms was carried out using the NIST 05 library and based on the information available in the literature. The presence of PE was confirmed in all the samples with both techniques. Our data suggest that Pyr-GC/MS could ... |
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