Objective:To assess the genotoxic potential of selected aquatic macrophytes:Ceratophyllum demersum L.(hornwort,family Ceratophyllaceae),Typha angustifolia L.(narrowleaf cattail,family Typhaceae),Stratiotes aloides L.(...Objective:To assess the genotoxic potential of selected aquatic macrophytes:Ceratophyllum demersum L.(hornwort,family Ceratophyllaceae),Typha angustifolia L.(narrowleaf cattail,family Typhaceae),Stratiotes aloides L.(water soldier,family Butomaceae),and Oenanthe aquatica(L.)Poir.(water dropwort,family Umbelliferae).Methods:For genotoxicity assessment,the mussel micronucleus test was applied.Micronucleus frequency was determined from the haemolymph of Unio pictorum L.(painter’s mussel).In parallel,total and hydrolisable tannin contents were determined.Results:All plant extracts elucidated significant mutagenic effect.Significant correlation was determined between tannin content and mutagenic capacity.Conclusions:The significant correlation between genotoxicity as expressed by micronucleus frequency and tannin content(both total and hydrolisable tannins)indicate that tannin is amongst the main compounds being responsible for the genotoxic potential.It might be suggested that genotoxic capacity of these plants elucidate a real ecological effect in the ecosystem.展开更多
基金Supported by Hungarian State and European Union(Grant No.TÁMOP-4.2.2.B-15/1/KONV-2015-0004).
文摘Objective:To assess the genotoxic potential of selected aquatic macrophytes:Ceratophyllum demersum L.(hornwort,family Ceratophyllaceae),Typha angustifolia L.(narrowleaf cattail,family Typhaceae),Stratiotes aloides L.(water soldier,family Butomaceae),and Oenanthe aquatica(L.)Poir.(water dropwort,family Umbelliferae).Methods:For genotoxicity assessment,the mussel micronucleus test was applied.Micronucleus frequency was determined from the haemolymph of Unio pictorum L.(painter’s mussel).In parallel,total and hydrolisable tannin contents were determined.Results:All plant extracts elucidated significant mutagenic effect.Significant correlation was determined between tannin content and mutagenic capacity.Conclusions:The significant correlation between genotoxicity as expressed by micronucleus frequency and tannin content(both total and hydrolisable tannins)indicate that tannin is amongst the main compounds being responsible for the genotoxic potential.It might be suggested that genotoxic capacity of these plants elucidate a real ecological effect in the ecosystem.