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Comparing Different Strategies for Cr(VI) Bioremediation: Bioaugmentation, Biostimulation, and Bioenhancement

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Listed:
  • Xiao Yan

    (National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-Ferrous Metals, Beijing 100088, China
    GRINM Resources and Environment Tech. Co., Ltd., Beijing 100088, China
    General Research Institute for Nonferrous Metals, Beijing 100088, China
    Beijing Engineering Research Center of Strategic Nonferrous Metals Green Manufacturing Technology, Beijing 100088, China)

  • Zhenghao Yan

    (School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang 471000, China
    These authors have contributed equally to this work and share first authorship.)

  • Xuezhe Zhu

    (National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-Ferrous Metals, Beijing 100088, China
    GRINM Resources and Environment Tech. Co., Ltd., Beijing 100088, China
    General Research Institute for Nonferrous Metals, Beijing 100088, China
    Beijing Engineering Research Center of Strategic Nonferrous Metals Green Manufacturing Technology, Beijing 100088, China)

  • Yupin Zhou

    (National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-Ferrous Metals, Beijing 100088, China
    GRINM Resources and Environment Tech. Co., Ltd., Beijing 100088, China
    General Research Institute for Nonferrous Metals, Beijing 100088, China
    Beijing Engineering Research Center of Strategic Nonferrous Metals Green Manufacturing Technology, Beijing 100088, China)

  • Guoying Ma

    (National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-Ferrous Metals, Beijing 100088, China
    GRINM Resources and Environment Tech. Co., Ltd., Beijing 100088, China
    General Research Institute for Nonferrous Metals, Beijing 100088, China
    Beijing Engineering Research Center of Strategic Nonferrous Metals Green Manufacturing Technology, Beijing 100088, China)

  • Shuangquan Li

    (National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-Ferrous Metals, Beijing 100088, China
    GRINM Resources and Environment Tech. Co., Ltd., Beijing 100088, China
    General Research Institute for Nonferrous Metals, Beijing 100088, China
    Beijing Engineering Research Center of Strategic Nonferrous Metals Green Manufacturing Technology, Beijing 100088, China)

  • Xingyu Liu

    (National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-Ferrous Metals, Beijing 100088, China
    GRINM Resources and Environment Tech. Co., Ltd., Beijing 100088, China
    General Research Institute for Nonferrous Metals, Beijing 100088, China
    Beijing Engineering Research Center of Strategic Nonferrous Metals Green Manufacturing Technology, Beijing 100088, China)

  • Mingjiang Zhang

    (National Engineering Research Center for Environment-Friendly Metallurgy in Producing Premium Non-Ferrous Metals, Beijing 100088, China
    GRINM Resources and Environment Tech. Co., Ltd., Beijing 100088, China
    General Research Institute for Nonferrous Metals, Beijing 100088, China
    Beijing Engineering Research Center of Strategic Nonferrous Metals Green Manufacturing Technology, Beijing 100088, China)

Abstract

Unchecked releases of industrial waste, including chromium smelting slag (CSS), have resulted in disastrous effects on the environment for human use. Considering the problems of environment, efficiency, and sustainability, the present research was designed to evaluate the potential feasibility of Cr(VI) bioremediation by different strategies of natural attenuation (NA), bioaugmentation (BA), biostimulation (BS), and bioenhancement (BE). Results showed the BE was the best strategy for Cr(VI) removal and reached 86.2% in 84 days, followed by the BA, BS, and NA. The variation of Eh values indicated all systems translated the oxidation state into reduction continuously except for NA and BS during the bioremediation process. After bioremediation, the Tessier sequential extraction analyzed in the BE showed stable chromium levels up to 97%, followed by BA (89~93%), BS (75~78%), and NA (68%), respectively. Moreover, High-throughput sequencing was also used to assist in revealing the differences in microbial community structure between the different strategies. Stenotrophomonas , Ochrobactrum , and Azomonas , as the bioremediation microbes, were enriched in the BE in comparison with the others. This provided a new enhancement strategy for bioremediation microbes colonized in a new environment to achieve sustainable removal of Cr(VI).

Suggested Citation

  • Xiao Yan & Zhenghao Yan & Xuezhe Zhu & Yupin Zhou & Guoying Ma & Shuangquan Li & Xingyu Liu & Mingjiang Zhang, 2023. "Comparing Different Strategies for Cr(VI) Bioremediation: Bioaugmentation, Biostimulation, and Bioenhancement," Sustainability, MDPI, vol. 15(16), pages 1-17, August.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:16:p:12522-:d:1219533
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