TY - CONF N2 - Different biosensors, along with ecotoxicological tools such as bio-analytical systems, bioassays, and biomarkers, serve as early detection systems to indicate potential environmental damage. Early recognition can help prevent further harm to environmental and ecological matrices. The application of biosensors in ecotoxicology has gained increasing attention over the past few decades as traditional chemical analysis methods are often expensive and timeconsuming. The development of biosensor methods for detecting of environmentally relevant pollutants (e.g., pesticide residues, mycotoxins, heavy metals, pharmaceuticals) and ecotoxicologically important indicator compounds (e.g., heat shock proteins) is advantageous because biosensors offer faster, more sensitive, and environmentally friendly methods for identifying and monitoring various pollutants in environmental and biological samples. The presence of pesticide and pharmaceutical residues in the environment is a complex problem (e.g., environmental and health risks, toxicological effects). Therefore, to protect ecological sustainability, environmental and human health, early and reliable detection of contaminants, even in the case of low concentrations, is of particular importance. A persistent challenge remains to identify relevant interpretation and risk assessment tools within the context of reference areas for the environment. CY - Szeged SP - 297 N1 - Bibliogr.: p. 300-301. ; ill. ; összefoglalás angol nyelven SN - 978-963-688-009-5 Y1 - 2024/// PB - University of Szeged T2 - 30th International Symposium on Analytical and Environmental Problems VL - 30 ID - acta85743 KW - Analitikai kémia KW - Környezetkémia KW - Biotechnológia KW - Bioszenzorok EP - 301 A1 - Klátyik Szandra A1 - Takács Eszter A1 - Nabok Alexei A1 - Székács András UR - http://acta.bibl.u-szeged.hu/85743/ TI - A short overview of biosensor techniques for the detection of chemical compounds and biomarkers during ecotoxicological testing M2 - Szeged AV - public ER -