Phytostabilization and rhizofiltration of toxic heavy metals by heavy metal accumulator plants for sustainable management of contaminated industrial sites: A comprehensive review

被引:22
|
作者
Bakshe, Pankaj [1 ]
Jugade, Ravin [1 ]
机构
[1] RTM Nagpur Univ, Dept Chem, Nagpur 440033, India
关键词
Heavy metal contamination; Phytoremediation; Remedy selection decision tree; Soil; sediment decision tree; Phytoremedial action plan; SOIL QUALITY; TRACE-ELEMENTS; TYPE-2; METALLOTHIONEIN; HYDRAULIC CONDUCTIVITY; ANTIOXIDANT ENZYMES; NICOTIANA-TABACUM; PISTIA-STRATIOTES; METHYLENE-BLUE; WETLAND PLANTS; AQUATIC PLANT;
D O I
10.1016/j.hazadv.2023.100293
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
The urban environment is a source and a carrier of heavy metals due to industrial waste. The establishment of industries and the emission of contaminants are not real problems; the big issue is the mixing of contaminants in a healthy environment. There is an urgent need to adopt the best approach to restricting contaminants at the introductory level of discharge and keeping the contaminants apart from the healthy environment. As a consequence, phytostabilization and rhizofiltration are the most specifically used and successful plant-based methods for eliminating toxins from industrial polluted regions with low impact on water bodies or soil structure. It also has the advantages of not producing secondary waste that must be treated and of stabilizing soil qualities as compared to other conventional treating methods. The comprehensive study helps us establish a suitable selection of technique for a particular metal-bearing effluent based on time consumption and efficiency, as well as identify plants typically employed for phytostabilization and rhizofiltration. This paper aims to compile important information about phytostabilization and rhizofiltration in relation to heavy metals stabilization. It also described the phytoremedial action plan, the remedy selection decision tree, and the soil/sediment decision tree. Additionally, it reveals the major criteria for plant selection, and their mechanism of stabilization Furthermore, this paper also recommends that the future studies should focus on finding more species that absorb As and Hg and designing a diverse range of plants that are useful for multielement absorption.
引用
收藏
页数:16
相关论文
共 50 条
  • [1] Biochar enhanced phytostabilization of heavy metal contaminated mine tailings: A review
    Shi, Yanfeng
    Zang, Yufei
    Yang, Huanhuan
    Zhang, Xu
    Shi, Jinmiao
    Zhang, Jie
    Liu, Bing
    [J]. FRONTIERS IN ENVIRONMENTAL SCIENCE, 2022, 10
  • [2] Sustainable approaches for removing toxic heavy metal from contaminated water: A comprehensive review of bioremediation and biosorption techniques
    Yaashikaa, P.R.
    Palanivelu, Jeyanthi
    Hemavathy, R.V.
    [J]. Chemosphere, 2024, 357
  • [3] Bentonite as a Functional Material Enhancing Phytostabilization of Post-Industrial Contaminated Soils with Heavy Metals
    Klik, Barbara
    Holatko, Jiri
    Jaskulska, Iwona
    Gusiatin, Mariusz Z.
    Hammerschmiedt, Tereza
    Brtnicky, Martin
    Liniauskiene, Ernesta
    Baltazar, Tivadar
    Jaskulski, Dariusz
    Kintl, Antonin
    Radziemska, Maja
    [J]. MATERIALS, 2022, 15 (23)
  • [4] Heavy metals in soils and plants of serpentine and industrial sites of Albania
    Shallari, S
    Schwartz, C
    Hasko, A
    Morel, JL
    [J]. SCIENCE OF THE TOTAL ENVIRONMENT, 1998, 209 (2-3) : 133 - 142
  • [5] Phytomanagement of a Chromium-contaminated Soil by a High-value Plant: Phytostabilization of Heavy Metal Contaminated Sites
    Ye, Li-Li
    Chen, Yong-Shan
    Chen, Yu-Dao
    Qian, Lian-Wen
    Xiong, Wen-Li
    Xu, Jing-Hua
    Jiang, Jin-Ping
    [J]. BIORESOURCES, 2020, 15 (02) : 3545 - 3565
  • [6] Phytoextraction and phytostabilization potential of plants grown in the vicinity of heavy metal-contaminated soils: a case study at an industrial town site
    B. Lorestani
    N. Yousefi
    M. Cheraghi
    A. Farmany
    [J]. Environmental Monitoring and Assessment, 2013, 185 : 10217 - 10223
  • [7] Bioremediation of toxic heavy metals (THMs) contaminated sites: concepts, applications and challenges
    Rahman, Zeeshanur
    Singh, Ved Pal
    [J]. ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH, 2020, 27 (22) : 27563 - 27581
  • [8] Bioremediation of toxic heavy metals (THMs) contaminated sites: concepts, applications and challenges
    Zeeshanur Rahman
    Ved Pal Singh
    [J]. Environmental Science and Pollution Research, 2020, 27 : 27563 - 27581
  • [9] Phytoextraction and phytostabilization potential of plants grown in the vicinity of heavy metal-contaminated soils: a case study at an industrial town site
    Lorestani, B.
    Yousefi, N.
    Cheraghi, M.
    Farmany, A.
    [J]. ENVIRONMENTAL MONITORING AND ASSESSMENT, 2013, 185 (12) : 10217 - 10223
  • [10] PhytoremeDiation of Heavy Metals Contaminated Environments: Screening for Native Accumulator Plants in Zanjan-Iran
    Saba, G.
    Parizanganeh, A. H.
    Zamani, A.
    Saba, J.
    [J]. INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH, 2015, 9 (01) : 309 - 316