Assessment of Acute Toxicity and Fecundity Efficiency of Eudrilus eugeniae Earthworms Exposed to Textile Dye Effluent Kowsalya S., Umavathi S.*, Thangam Y., Sathish V., Sudha S. PG & Research Department of Zoology, J.K.K. Nataraja College of Arts and Science (affiliated to Periyar University, Salem), Namakkal - 638 186, Tamil Nadu (India) *e-mail: umavathi.s@jkkn.ac.in
Online Published on 05 September, 2023. Abstract The focus of this study was to investigate the acute toxicity, growth and survival responses of earthworm species Eudrilus eugeniae, exposed to textile dye effluent. The textile dye effluent samples were collected from Erode, Tamil Nadu (India) and analysed for physicochemical parameters and heavy metal content. The effluent samples were used in subsequent toxicity and biochemical tests on E. eugeniae. Garden soil was used in comprehensive study on the behaviour of E. eugeniae. The natural soil test method was used to expose the epigeic earthworm species E. eugeniae to varying concentrations (5 to 25 mL kg-1) of textile effluent for 7 and 14 days. The results revealed that the LC50 values of textile effluent were 26.55 and 6.586 mL kg-1 after 7 and 14 days, respectively. The lethal effects of textile effluent were assessed by exposing earthworms to 5 concentrations (5, 10, 15, 20, and 25 mL kg-1) of LC50 of textile effluent for 28 days to record fecundity and growth rates. Maximum growth of earthworms was observed in control group (10.12 cm length and 6.04 g weight) while effluent-treated earthworms showed reduced growth with increased effluent concentration affecting the growth more severely. A lower number of cocoons and young ones (31.4 cocoons and 107.4 young ones) were observed in high concentration (25 mL kg-1) of textile effluent in comparison to the control group (65.6 cocoons and 306.4 young ones). The study revealed that textile effluents cause potential health risk to E. eugeniae if exposed to high concentrations. Top Keywords Bioindicators, Ecotoxicology, Eudrilus eugeniae, Growth & fecundity sub-lethal effects, Textile dye effluent. Top |