Kinetic and isotherm of competitive adsorption cadmium and lead onto Saccharomyces cerevisiae autoclaved cells

Dong, Xiaoqing1; Ye, Bin2; Xiang, Huiqiang1; Yao, Meng1

2023-03-01

10.1007/s10653-023-01540-9

ENVIRONMENTAL GEOCHEMISTRY AND HEALTH   Impact Factor & Quartile

0269-4042

1573-2983

Heavy metal pollution has been regarded as a significant public health hazard during the industrialization, which also have exhibited various types of toxicological manifestations. Moreover, due to the high cost and toxic by-products, some conventional remediation methods were limited to heavy metals pollution control. In this work, autoclaved Saccharomyces cerevisiae was used as a biosorbent for the removal of Cd2+ and Pb2+ from single and binary ions aqueous solution system. The kinetics and isotherm of Cd2+ and Pb2+ were studied in different ion systems. The results showed that the competitive adsorption ability of S. cerevisiae to Pb2+ was stronger than that to Cd2+ in binary ions solution. To all the single ion solution of Cd2+ or Pb2+ and binary ions solution of Cd2+-Pb2+, there always existed that the adsorption of metal ions on S. cerevisiae fitted well with pseudo-second-order kinetic model and Langmuir isotherms model. The adsorption quantity q(t) in different solutions followed the sequence as q(t) (Cd2+-Pb2+) > q(t) (Pb2+-single) > q(t) (Pb2+-binary) > q(t) (Cd2+-single) > q(t) (Cd2+-binary). The autoclaved S. cerevisiae used in this research was one kind of rapid and favourable biosorbent for Pb2+ and Cd2+. In Pb2+ and Cd2+-containing solutions, sites competition and jointed toxicity of Pb2+ and Cd2+ on S. cerevisiae cells were the key to the total adsorption effect, and further researches were necessary in the next work. Thus, the current research presented that the autoclaved S. cerevisiae could be applied as an effective biosorbent for heavy metal adsorption from water environment and the design of eco-friendly technologies for the treatment of waste liquor.

Saccharomyces cerevisiae Adsorption Binary ions solution Kinetics Isotherm absorption

SCI

English

Corresponding

Technology Project of Shenzhen Institute of Information Technology[SZIIT2020KJ001] ; Science and Technology Planning Project of Shenzhen[JCYJ20190809162809440]

Engineering ; Environmental Sciences & Ecology ; Public, Environmental & Occupational Health ; Water Resources

Engineering, Environmental ; Environmental Sciences ; Public, Environmental & Occupational Health ; Water Resources

WOS:000951290300002

SPRINGER

ENVIRONMENT/ECOLOGY

Web of Science

1.Shenzhen Inst Informat Technol, Dept Environm Engn Technol, Shenzhen 518172, Peoples R China
2.Southern Univ Sci & Technol, Sch Environm Sci & Engn, Shenzhen 518055, Peoples R China

Dong, Xiaoqing,Ye, Bin,Xiang, Huiqiang,et al. Kinetic and isotherm of competitive adsorption cadmium and lead onto Saccharomyces cerevisiae autoclaved cells[J]. ENVIRONMENTAL GEOCHEMISTRY AND HEALTH,2023.

Dong, Xiaoqing,Ye, Bin,Xiang, Huiqiang,&Yao, Meng.(2023).Kinetic and isotherm of competitive adsorption cadmium and lead onto Saccharomyces cerevisiae autoclaved cells.ENVIRONMENTAL GEOCHEMISTRY AND HEALTH.

Dong, Xiaoqing,et al."Kinetic and isotherm of competitive adsorption cadmium and lead onto Saccharomyces cerevisiae autoclaved cells".ENVIRONMENTAL GEOCHEMISTRY AND HEALTH (2023).