Kinetics and equilibrium study for the biosorption of lanthanum by Penicillium simplicissimum INCQS 40,211

被引:7
作者
Bergsten-Torralba, Ludmila R. [1 ]
Nascimento, C. R. S. [2 ]
Buss, Daniel F. [1 ]
Giese, Ellen C. [3 ]
机构
[1] Inst Oswaldo Cruz IOC FIOCRUZ, Rio De Janeiro, RJ, Brazil
[2] Inst Nacl Controle Qualidade Saude INCQS FIOCRUZ, Rio De Janeiro, RJ, Brazil
[3] Ctr Tecnol Mineral, Av Pedro Calmon 900, BR-21941908 Rio De Janeiro, RJ, Brazil
来源
3 BIOTECH | 2021年 / 11卷 / 11期
关键词
Biosorption; Rare earth elements; Penicillium simplicissimum; Isotherm models; RARE-EARTH-ELEMENTS; PENICILLIUM-SIMPLICISSIMUM; HUMAN HEALTH; FUNGI; ADSORPTION; TOLERANCE; RECOVERY; BEHAVIOR; EUROPIUM; REMOVAL;
D O I
10.1007/s13205-021-03004-2
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
Lanthanum (La) is a light rare-earth element that plays an essential role in manufacturing technological products, clean technologies, medical products, electron cathodes, scintillators, fluorescent lamps, and fertilizers. This study is the first investigation of La3+ biosorption using inactive lyophilized biomass from Penicillium simplicissimum INCQS 40,211. The maximum sorption capacity (q(max)) for P. simplicissimum was 7.81 mg g(-1). La (3+) biosorption followed the Freundlich model, where the biosorption system possibly multilayer coverage of P. simplicissimum by lanthanum ions. The kinetic data for the adsorption process obeyed a pseudo-second-order (R-2 > 0.92), indicating chemical sorption. The results indicated that inactive lyophilized biomass from Penicillium simplicissimum INCQS 40211are an excellent candidate for removing light rare-earth elements from aquatic environments.
引用
收藏
页数:8
相关论文
共 52 条
  • [1] Hormetic dose responses induced by lanthanum in plants
    Agathokleous, Evgenios
    Kitao, Mitsutoshi
    Calabrese, Edward J.
    [J]. ENVIRONMENTAL POLLUTION, 2019, 244 : 332 - 341
  • [2] THE BIOSORPTION OF COPPER(II) BY C-VULGARIS AND Z-RAMIGERA
    AKSU, Z
    SAG, Y
    KUTSAL, T
    [J]. ENVIRONMENTAL TECHNOLOGY, 1992, 13 (06) : 579 - 586
  • [3] Arivoli S., 2007, Electronic Journal of Environmental, Agricultural and Food Chemistry, V6, P2323
  • [4] A zeoponic system modified with Penicillium simplicissimum for the removal of trace elements from aqueous solutions and gold mine leachates
    Bakatula, E. N.
    Straker, C. J.
    Cukrowska, E. M.
    Weiersbye, I. M.
    Mihaly-Cozmuta, L.
    Tutu, H.
    [J]. JOURNAL OF GEOCHEMICAL EXPLORATION, 2015, 156 : 34 - 43
  • [5] Rare earth elements: A review of applications, occurrence, exploration, analysis, recycling, and environmental impact
    Balaram, V.
    [J]. GEOSCIENCE FRONTIERS, 2019, 10 (04) : 1285 - 1303
  • [6] Toxicity of three rare earth elements, and their combinations to algae, microcrustaceans, and fungi
    Bergsten-Torralba, L. R.
    Magalhaes, D. P.
    Giese, E. C.
    Nascimento, C. R. S.
    Pinho, J. V. A.
    Buss, D. F.
    [J]. ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY, 2020, 201
  • [7] Bergsten-Torralba LR, 2009, BRAZ J MICROBIOL, V40, P808, DOI 10.1590/S1517-838220090004000011
  • [8] Bioaccumulation and Biosorption Activities of Indoor Metal-Tolerant Penicillium simplicissimum for Removal of Toxic Metals
    Chen, Si Hui
    Cheow, Yuen Lin
    Ng, Si Ling
    Ting, Adeline Su Yien
    [J]. INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH, 2020, 14 (02) : 235 - 242
  • [9] Removal of triphenylmethane dyes in single-dye and dye-metal mixtures by live and dead cells of metal-tolerant Penicillium simplicissimum
    Chen, Si Hui
    Cheow, Yuen Lin
    Ng, Si Ling
    Ting, Adeline Su Yien
    [J]. SEPARATION SCIENCE AND TECHNOLOGY, 2020, 55 (13) : 2410 - 2420
  • [10] Mechanisms for metal removal established via electron microscopy and spectroscopy: a case study on metal tolerant fungi Penicillium simplicissimum
    Chen, Si Hui
    Cheow, Yuen Lin
    Ng, Si Ling
    Ting, Adeline Su Yien
    [J]. JOURNAL OF HAZARDOUS MATERIALS, 2019, 362 : 394 - 402
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