Plastics, which were developed in the 19th century, have become a major environmental problem today, as their waste permanently pollutes the environment. One particular problem is microplastics (MP), small plastic particles that are formed when larger parts decompose and are more biologically accessible. MP occurs in both terrestrial and aquatic environments and affects organisms, including terrestrial isopods of the species Porcellio scaber, which were the subject of this study. The aim of the MSc thesis was to use proteomics to investigate potential changes in the hemolymph when the model organism is exposed to MP. The response to different types and concentrations of MP on protein expression in the hemolymph of the isopod P. scaber was observed. It was found that exposure to MP leads to changes in protein expression, with higher concentrations of MP leading to more pronounced changes. The study showed that conventional and biodegradable plastics cause similar changes in the hemolymph proteome, disproving the hypothesis that biodegradable plastics would have a lesser effect. The observed changes in protein expression indicate a stress response of the organisms to the presence of MP, including activation of the immune system and changes in metabolism. The study confirms that MP is a serious environmental factor affecting physiological processes in organisms and emphasises the need for further research of its effects.