Validation of an imaging FTIR spectroscopic method for analyzing microplastics ingestion by Finnish lake fish (Perca fluviatilis and Coregonus albula)
Environmental Pollution2021
52 citations
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Erika Sainio,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Arto Koistinen,
Outi Setälä
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Outi Setälä
Outi Setälä
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Emilia Uurasjärvi,
Erika Sainio,
Emilia Uurasjärvi,
Outi Setälä
Outi Setälä
Arto Koistinen,
Outi Setälä
Outi Setälä
Arto Koistinen,
Outi Setälä
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Outi Setälä
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Maiju Lehtiniemi,
Emilia Uurasjärvi,
Outi Setälä
Arto Koistinen,
Arto Koistinen,
Outi Setälä
Arto Koistinen,
Outi Setälä
Maiju Lehtiniemi,
Arto Koistinen,
Emilia Uurasjärvi,
Arto Koistinen,
Arto Koistinen,
Erika Sainio,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Outi Setälä
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Arto Koistinen,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Arto Koistinen,
Arto Koistinen,
Maiju Lehtiniemi,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Emilia Uurasjärvi,
Outi Setälä
Arto Koistinen,
Arto Koistinen,
Emilia Uurasjärvi,
Arto Koistinen,
Arto Koistinen,
Outi Setälä
Outi Setälä
Arto Koistinen,
Outi Setälä
Emilia Uurasjärvi,
Arto Koistinen,
Emilia Uurasjärvi,
Maiju Lehtiniemi,
Maiju Lehtiniemi,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Maiju Lehtiniemi,
Arto Koistinen,
Arto Koistinen,
Maiju Lehtiniemi,
Arto Koistinen,
Arto Koistinen,
Arto Koistinen,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Emilia Uurasjärvi,
Maiju Lehtiniemi,
Arto Koistinen,
Outi Setälä
Maiju Lehtiniemi,
Arto Koistinen,
Outi Setälä
Summary
Researchers developed and validated an imaging FTIR spectroscopy method for identifying microplastics ingested by Finnish lake fish, including perch and vendace. The study confirmed that wild freshwater fish are ingesting microplastics and demonstrated that standardized analytical methods are needed to improve the reliability of microplastic detection in aquatic organisms.
Despite the ubiquitousness of microplastics, knowledge on the exposure of freshwater fish to microplastics is still limited. Moreover, no standard methods are available for analyzing microplastics, and the quality of methods used for the quantification of ingested microplastics in fish should be improved. In this study, we studied microplastic ingestion of common wild freshwater fish species, perch (Perca fluviatilis) and vendace (Coregonus albula). Further, our aim was to develop and validate imaging Fourier-transform infrared spectroscopic method for the quantification of ingested microplastics. For this purpose, enzymatically digested samples were measured with focal plane array (FPA) based infrared microscope. Data was analyzed with siMPle software, which provides counts, mass estimations, sizes, and materials for the measured particles. Method validation was conducted with ten procedural blanks and recovery tests, resulting in 75% and 77% recovery rates for pretreatment and infrared imaging, respectively. Pretreatment caused contamination principally by small <100 μm microplastics. The results showed that 17% of perch and 25% of vendace had ingested plastic. Most of the fish contained little or no plastics, while some individuals contained high numbers of small particles or alternatively few large particles. Perch from one sampling site out of five had ingested microplastics, but vendace from all sampling sites had ingested microplastics. The microplastics found from fish were mostly small: 81% had particle size between 20 and 100 μm, and most of them were polyethylene, polypropylene, and polyethylene terephthalate. In conclusion, the implemented method revealed low numbers of ingested microplastics on average but needs further development for routine monitoring of small microplastics.