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Microplastics In Fish Gastrointestinal Tracts sampled in 2020 in the North Sea (MICROFISH project) Citable as data publication De Witte, B.; Catarino, A.I.; Vandecasteele, L.; Dekimpe, M.; Meyers, N.; Deloof, D.; Pint, S.; Hostens, K.; Everaert, G.; Torreele, E.; Flanders Research Institute for Agriculture, Fisheries and Food (ILVO); Flanders Marine Institute (VLIZ): Belgium; (2021): Microplastics In Fish Gastrointestinal Tracts sampled in 2020 in the North Sea (MICROFISH project). Marine Data Archive. https://doi.org/10.14284/516 Contact: De Witte, Bavo ; Catarino, Ana Availability:  This dataset is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.Description In this work, a pilot study was performed to assess the feasibility of biomonitoring microplastics (MPs) in fish gastro-intestinal tract (GIT), to assess MP spatial contamination in the marine environment. The MPs identification protocol was based on Nile red staining and fluorescent microscopy observations. The confirmation of MPs identification and the analysis of the polymer composition of particles was done using micro-Fourier transform infrared (µFTIR) spectroscopy. more Fish gastro-intestinal tract (GIT) and fillet samples were dissected onboard scientific fisheries survey vessels, before lab digestion, density separation and analysis. Samples were processed individually or GIT contents from 3 fish were pooled prior to a two-step digestion. The size of each particle was measured along its maximum Feret diameter using the scale bar function of the Leica Application Suite (LAS) microscope software, while fibre length was measured as the shortest distance between the two fibre tips. Microplastics were classified by colour and shape according to MSFD Technical Subgroup on Marine Litter (2013). A micro-Fourier Transform Infrared Spectroscopy (µFTIR) analysis was performed using a Spotlight 200i FT-IR microscope (Perkin Elmer) to distinguish between synthetic (i.e., plastic) and natural (i.e., non-plastic) particles, and to further identify the polymers of selected 52 particles (size > 50 µm), 36 potential plastic and 16 non-plastic particles. To identify the spectra, a search was performed in a spectra commercial library (Perkin Elmer), excluding the range 1,250 - 1,100 cm-1, and polymers identification was accepted when a match was over 60% (with one exception for a Fluorocarbon particle, where the match was 55%). Scope Themes: Biology > Fish, Environmental quality/pollution Keywords: Marine/Coastal, Biomonitoring, Fish, Gastro-intestinal tract, Microplastics, North sea, Pilot study, Scientific fisheries surveys, ANE, North Sea Geographical coverage ANE, North Sea [Marine Regions] Temporal coverage 24 August 2020 - 22 September 2020 Parameters Fish GIT sample weight Fish length MicroFTIR polymer library matching score MPs / Fish GIT sample Methodology Particle length Methodology Particle shape Methodology Wet weight of fish MPs / Fish GIT sample: All particles identified using Nile red prior to microFTIR correction Particle length: Measured as the feret diameter; fibre length was measured as the shortest distance between the two fibre tips Particle shape: Particle shape as per the MSFD Technical Subgroup on Marine Litter (2013). Guidance on Monitoring of Marine Litter in European Seas. Luxembourg doi:10.2788/99475 Contributors Publication Based on this dataset De Witte, B. et al. (2022). Feasibility study on biomonitoring of microplastics in fish gastrointestinal tracts. Front. Mar. Sci. 8: 794636. https://dx.doi.org/10.3389/fmars.2021.794636, more Dataset status: Completed Data type: Data Data origin: Research: field survey Metadatarecord created: 2021-09-30 Information last updated: 2021-09-30 | ||||
