A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy

A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy

The present work is the first to study co-biosorption of Pb(II) and Sb(III) by a novel bacterium and its application strategy. The biosorption characteristics of Pb(II) and Sb(III) ions from aqueous solution using B. subtilis were investigated. Optimum pH, biomass dosage, contact time and temperatur...

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Main Authors: Yue Cai, Xiaoping Li, Dongying Liu, Changlin Xu, Yuwei Ai, Xuemeng Sun, Meng Zhang, Yu Gao, Yuchao Zhang, Tao Yang, Jingzhi Wang, Lijun Wang, Xiaoyun Li, Hongtao Yu
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:International Journal of Environmental Research and Public Health
Subjects:
Bacillus subtilis
biosorption kinetics
Pb(II) and Sb(III), phytoremediation
thermodynamics
Online Access:http://www.mdpi.com/1660-4601/15/4/702
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spelling doaj-645225675aa74d089493ccf17263b29a2020-11-24T21:07:35ZengMDPI AGInternational Journal of Environmental Research and Public Health1660-46012018-04-0115470210.3390/ijerph15040702ijerph15040702A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application StrategyYue Cai0Xiaoping Li1Dongying Liu2Changlin Xu3Yuwei Ai4Xuemeng Sun5Meng Zhang6Yu Gao7Yuchao Zhang8Tao Yang9Jingzhi Wang10Lijun Wang11Xiaoyun Li12Hongtao Yu13Department of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaDepartment of Environmental Science, School of Geography and Tourism, Shaanxi Normal University, Xi’an 710062, ChinaInternational Joint Research Centre of Shaanxi Province for Pollutant Exposure and Eco-Environmental Health, Xi’an 710062, ChinaThe present work is the first to study co-biosorption of Pb(II) and Sb(III) by a novel bacterium and its application strategy. The biosorption characteristics of Pb(II) and Sb(III) ions from aqueous solution using B. subtilis were investigated. Optimum pH, biomass dosage, contact time and temperature were determined to be 5.00, 6.00 mg/L, 45 min and 35 °C, respectively. Langmuir, Freundlich, Temkin and Dubinin-Radushkevich (D-R) models were applied to describe the biosorption isotherm of the metal ions by B. subtilis. Results showed that Langmuir model fitted the equilibrium data of Pb(II) better than others, while biosorption of Sb(III) obeyed the Freundlich model well. The biosorption capacity of B. subtilis biomass for Pb(II) and Sb(III) ions was found to be 17.34 ± 0.14 and 2.32 ± 0.30 mg/g, respectively. Kinetic data showed the biosorption process of Pb(II) and Sb(III) ions both followed the pseudo-second-order kinetic model, with R2 ranging from 0.974 to 0.999 for Pb(II) and from 0.967 to 0.979 for Sb(III). The calculated thermodynamic parameters, negative ∆G and positive ∆H and ∆S values, indicated the biosorption of Pb(II) and Sb(III) ions onto B. subtilis biomass in water was feasible, endothermic, and spontaneous. Bacterial bioleaching experiment revealed B. subtilis can increase the mobility of Pb(II) and Sb(III) in polluted soil when pH was close to 6 at low temperature. Consequently, B. subtilis, as a cheap and original bacterial material, could be a promising biomass to remove Pb or isolate Sb from industrial wastewater and to assist phytoremediation of Pb and Sb from weak acid or near neutral pH polluted soils at low temperature.http://www.mdpi.com/1660-4601/15/4/702Bacillus subtilisbiosorption kineticsPb(II) and Sb(III), phytoremediationthermodynamics
collection DOAJ
language English
format Article
sources DOAJ
author Yue Cai
Xiaoping Li
Dongying Liu
Changlin Xu
Yuwei Ai
Xuemeng Sun
Meng Zhang
Yu Gao
Yuchao Zhang
Tao Yang
Jingzhi Wang
Lijun Wang
Xiaoyun Li
Hongtao Yu
spellingShingle Yue Cai
Xiaoping Li
Dongying Liu
Changlin Xu
Yuwei Ai
Xuemeng Sun
Meng Zhang
Yu Gao
Yuchao Zhang
Tao Yang
Jingzhi Wang
Lijun Wang
Xiaoyun Li
Hongtao Yu
A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy
International Journal of Environmental Research and Public Health
Bacillus subtilis
biosorption kinetics
Pb(II) and Sb(III), phytoremediation
thermodynamics
author_facet Yue Cai
Xiaoping Li
Dongying Liu
Changlin Xu
Yuwei Ai
Xuemeng Sun
Meng Zhang
Yu Gao
Yuchao Zhang
Tao Yang
Jingzhi Wang
Lijun Wang
Xiaoyun Li
Hongtao Yu
author_sort Yue Cai
title A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy
title_short A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy
title_full A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy
title_fullStr A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy
title_full_unstemmed A Novel Pb-Resistant Bacillus subtilis Bacterium Isolate for Co-Biosorption of Hazardous Sb(III) and Pb(II): Thermodynamics and Application Strategy
title_sort novel pb-resistant bacillus subtilis bacterium isolate for co-biosorption of hazardous sb(iii) and pb(ii): thermodynamics and application strategy
publisher MDPI AG
series International Journal of Environmental Research and Public Health
issn 1660-4601
publishDate 2018-04-01
description The present work is the first to study co-biosorption of Pb(II) and Sb(III) by a novel bacterium and its application strategy. The biosorption characteristics of Pb(II) and Sb(III) ions from aqueous solution using B. subtilis were investigated. Optimum pH, biomass dosage, contact time and temperature were determined to be 5.00, 6.00 mg/L, 45 min and 35 °C, respectively. Langmuir, Freundlich, Temkin and Dubinin-Radushkevich (D-R) models were applied to describe the biosorption isotherm of the metal ions by B. subtilis. Results showed that Langmuir model fitted the equilibrium data of Pb(II) better than others, while biosorption of Sb(III) obeyed the Freundlich model well. The biosorption capacity of B. subtilis biomass for Pb(II) and Sb(III) ions was found to be 17.34 ± 0.14 and 2.32 ± 0.30 mg/g, respectively. Kinetic data showed the biosorption process of Pb(II) and Sb(III) ions both followed the pseudo-second-order kinetic model, with R2 ranging from 0.974 to 0.999 for Pb(II) and from 0.967 to 0.979 for Sb(III). The calculated thermodynamic parameters, negative ∆G and positive ∆H and ∆S values, indicated the biosorption of Pb(II) and Sb(III) ions onto B. subtilis biomass in water was feasible, endothermic, and spontaneous. Bacterial bioleaching experiment revealed B. subtilis can increase the mobility of Pb(II) and Sb(III) in polluted soil when pH was close to 6 at low temperature. Consequently, B. subtilis, as a cheap and original bacterial material, could be a promising biomass to remove Pb or isolate Sb from industrial wastewater and to assist phytoremediation of Pb and Sb from weak acid or near neutral pH polluted soils at low temperature.
topic Bacillus subtilis
biosorption kinetics
Pb(II) and Sb(III), phytoremediation
thermodynamics
url http://www.mdpi.com/1660-4601/15/4/702
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