November 16, 2024
Amir Vazirizadeh

Amir Vazirizadeh

Academic Rank: Assistant professor
Address: 75169613817,Persian Gulf University
Degree: Ph.D in Biochemistry
Phone: 09177701465
Faculty: Persian Gulf Research Institue

Research

Title Peronia peronii as a bio‑indicator to assess the toxicity of waterpipe tobacco leachates in aquatic and sediment media
Type Article
Keywords
Cigarette butts,Lethal concentration,Hookah,Tobacco waste,Sediment media
Journal ENVIRONMENTAL GEOCHEMISTRY AND HEALTH
DOI /10.1007/10653-024-02105-0
Researchers Farshid Soleimani (First researcher) , vali Alipour (Second researcher) , Sara Dadipoor (Third researcher) , Cristina Lidón‑Moyano (Fourth researcher) , Amir Vazirizadeh (Fifth researcher) , roshana rashidi (Not in first six researchers) , Hossein Arfaeinia (Not in first six researchers) , Hamidreza Gaffari (Not in first six researchers) ,

Abstract

This study was aimed to survey toxicity of waterpipe wastes leachates on Peronia peronii in aquatic and sediment environments as two exposure media. For this, leachates of four tobacco types including burnt traditional tobacco (BTT), fresh traditional tobacco (FTT), burnt fruit-flavored tobacco (BFT) and fresh fruit-flavored tobacco (FFT)) were prepared and used to assess their toxic effects on P. peronei in two aquatic and sediment media. The invivo toxic effects of five different concentrations of waterpipe tobacco waste leachates on P. peronii were evaluated. The LC 50 values of BTTs leachates to P. peronii were 17.50, 16.05, 11.31 and 9.38 g/L at exposure times of 24, 48, 72 and 96 h, respectively in aquatic media. These values for BFTs leachates were 14.86, 12.38, 9.53 and 7.46 g/L at exposure times of 24, 48, 72 and 96 h, respectively. In the case of sediment media, the LC50 values of BTTs leachates were 15.33, 13.70, 9.09 and 6.70 g/L at exposure times of 24, 48, 72 and 96 h, respectively while these values for BFTs leachates were 12.00, 10.32, 8.20 and 5.65 g/L. Fruit-flavored tobacco leachates had significantly higher toxicity than traditional tobacco leachates for P. peronii. The findings also showed significant differences between the LC 50 values of different leachates in different media of water and sediment.The results demonstrated that even small amount of tobacco waste (~5 to 6 g/L) can lead to P. peronii mortality and may also pose a hazard to other aquatic and benthic organisms. The results obtained from the present study can be used as a baseline data to assess local effects causing from unsafe disposal of postconsumption tobacco waste in beach areas. In addition, these findings can lead to encouraging decisionmakers to focus more on the types of tobacco waste in the municipal solid waste management system and to implement a source separation process for these wastes.