Understanding Ecotoxicological Drivers and Responses of Freshwater Green Algae, Raphidocelis Subcapitata, to Cationic Polyquaternium Polymers

Autor: Anna Magdalene Brun Hansen, Jessica L. Brill, Kristin A. Connors, Scott E. Belanger, Anders Baun, Hans Sanderson
Rok vydání: 2023
Předmět:
Zdroj: Hansen, A M B, Brill, J L, Connors, K A, Belanger, S E, Baun, A & Sanderson, H 2023, ' Understanding ecotoxicological drivers and responses of freshwater green algae, Raphidocelis subcapitata, to cationic polyquaternium polymers ', Environmental Research, vol. 231, no. Part 3, 116282 . https://doi.org/10.1016/j.envres.2023.116282
Hansen, A M B, Brill, J, Connors, K A, Belanger, S E, Baun, A & Sanderson, H 2023, ' Understanding ecotoxicological drivers and responses of freshwater green algae, Raphidocelis subcapitata to cationic polyquaternium polymers ', Environmental Research .
Popis: Cationic polymer (CP) ecotoxicity is important to understand and investigate as they are widely used in industrial and consumer applications and have shown toxic effects in some aquatic organisms. CPs are identified as “polymers of concern” and are to be prioritized in upcoming regulatory reviews, (e.g., REACH). Algae have generally been found to be the most sensitive trophic level to CP. This study aimed at elucidating the magnitude of cationic polyquaternium toxicity towards algae and to understand key toxicological drivers. A suite of polyquaterniums with varying charge density (charged nitrogen moieties) and molecular weight were selected. Highly charged polyquaternium-6 and -16 were toxic towards the freshwater green microalgae Raphidocelis subcapitata with ErC50-values ranging between 0.12 and 0.41 mg/L. Lower charge density polyquaternium-10 materials had much lower toxicity with ErC50 > 200 mg/L, suggesting that charge density is an important driver of algal toxicity. These levels of toxicity were in line with historic CP data in literature. Algal agglomeration was observed in all tests but was not linked with impacts on algal growth rate. However, agglomeration can pose challenges in the technical conduct of tests and can impair interpretation of results. The toxicity mitigation potential of humic acid was also explored. The addition of 2–20 mg/L humic acid completely mitigated PQ6 and PQ16 toxicity at concentrations higher than clean water ErC50-values. CP toxicity mitigation has also been observed in fish and invertebrate tests, suggesting that CP mitigation should be accounted for in all trophic levels within an environmental safety framework.
Databáze: OpenAIRE