Phytoremediation of heavy metal pollution: Hotspots and future prospects

To clarify the global status and research hotspots of heavy metal pollution phytoremediation, we used Web of Science, Cite Space software, and VOS viewer to analyse 1123 publications from the period of 2000–2020. Literature categories, research hotpots, and the most prolific publications by country,...

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Veröffentlicht in:Ecotoxicology and environmental safety Jg. 234; S. 113403
Hauptverfasser: Yang, Le, Wang, Junbang, Yang, Yongsheng, Li, Sha, Wang, Tongxin, Oleksak, Patrik, Chrienova, Zofia, Wu, Qinghua, Nepovimova, Eugenie, Zhang, Xiujuan, Kuca, Kamil
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Netherlands Elsevier Inc 01.04.2022
Elsevier
Schlagworte:
Bibliometrics
Cite space
Heavy metal contamination
Phytoremediation
Web of science
Web of science
Bibliometrics
Cite space
Heavy metal contamination
Phytoremediation
ISSN:0147-6513, 1090-2414, 1090-2414
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Abstract To clarify the global status and research hotspots of heavy metal pollution phytoremediation, we used Web of Science, Cite Space software, and VOS viewer to analyse 1123 publications from the period of 2000–2020. Literature categories, research hotpots, and the most prolific publications by country, institution, and author were analysed separately. Around 34% of the articles are contributed from five countries: China (29.37%), India (11.00%), Spain (6.29%), Italy (6.20%), and Pakistan (5.67%). The hot research topic keywords were “diversity”, “translocation”, and “enhanced phytoremediation”. Cadmium was the most highly concerned heavy metal in the phytoremediation. Twenty-three articles were highly cited, and they mainly focused on 1) enhancing the remediation ability of plants in heavy metal contaminated soil by microbial and chemical additives; 2) the molecular effect and mechanism of heavy metals on plant growth and development; 3) discovering novel heavy metal hyper-enriched plants which can remediate mixed heavy metal pollution. From the above analysis, we concluded that the future research directions should be 1) strengthening the plant remediation ability by biochemical means; 2) studying the molecular mechanism underlying heavy metal damage to plants; 3) studying the enrichment principle of plants for heavy metals. The present study provides a further understanding of the trends in phytoremediation of heavy metal pollution, and the data analysed can be used as a guide for future research directions. •Trends and research hotspots of heavy metal phytoremediation were investigated.•China, India, Spain, Italy, and Pakistan contributed to 34% of all analysed articles.•Cadmium was the most highly concerned heavy metal in phytoremediation.•Research should focus on strengthening phytoremediation ability by biochemical means.•Studies on heavy metal damage to plants and enrichment principle of plants are needed.
AbstractList To clarify the global status and research hotspots of heavy metal pollution phytoremediation, we used Web of Science, Cite Space software, and VOS viewer to analyse 1123 publications from the period of 2000–2020. Literature categories, research hotpots, and the most prolific publications by country, institution, and author were analysed separately. Around 34% of the articles are contributed from five countries: China (29.37%), India (11.00%), Spain (6.29%), Italy (6.20%), and Pakistan (5.67%). The hot research topic keywords were “diversity”, “translocation”, and “enhanced phytoremediation”. Cadmium was the most highly concerned heavy metal in the phytoremediation. Twenty-three articles were highly cited, and they mainly focused on 1) enhancing the remediation ability of plants in heavy metal contaminated soil by microbial and chemical additives; 2) the molecular effect and mechanism of heavy metals on plant growth and development; 3) discovering novel heavy metal hyper-enriched plants which can remediate mixed heavy metal pollution. From the above analysis, we concluded that the future research directions should be 1) strengthening the plant remediation ability by biochemical means; 2) studying the molecular mechanism underlying heavy metal damage to plants; 3) studying the enrichment principle of plants for heavy metals. The present study provides a further understanding of the trends in phytoremediation of heavy metal pollution, and the data analysed can be used as a guide for future research directions.
To clarify the global status and research hotspots of heavy metal pollution phytoremediation, we used Web of Science, Cite Space software, and VOS viewer to analyse 1123 publications from the period of 2000-2020. Literature categories, research hotpots, and the most prolific publications by country, institution, and author were analysed separately. Around 34% of the articles are contributed from five countries: China (29.37%), India (11.00%), Spain (6.29%), Italy (6.20%), and Pakistan (5.67%). The hot research topic keywords were "diversity", "translocation", and "enhanced phytoremediation". Cadmium was the most highly concerned heavy metal in the phytoremediation. Twenty-three articles were highly cited, and they mainly focused on 1) enhancing the remediation ability of plants in heavy metal contaminated soil by microbial and chemical additives; 2) the molecular effect and mechanism of heavy metals on plant growth and development; 3) discovering novel heavy metal hyper-enriched plants which can remediate mixed heavy metal pollution. From the above analysis, we concluded that the future research directions should be 1) strengthening the plant remediation ability by biochemical means; 2) studying the molecular mechanism underlying heavy metal damage to plants; 3) studying the enrichment principle of plants for heavy metals. The present study provides a further understanding of the trends in phytoremediation of heavy metal pollution, and the data analysed can be used as a guide for future research directions.To clarify the global status and research hotspots of heavy metal pollution phytoremediation, we used Web of Science, Cite Space software, and VOS viewer to analyse 1123 publications from the period of 2000-2020. Literature categories, research hotpots, and the most prolific publications by country, institution, and author were analysed separately. Around 34% of the articles are contributed from five countries: China (29.37%), India (11.00%), Spain (6.29%), Italy (6.20%), and Pakistan (5.67%). The hot research topic keywords were "diversity", "translocation", and "enhanced phytoremediation". Cadmium was the most highly concerned heavy metal in the phytoremediation. Twenty-three articles were highly cited, and they mainly focused on 1) enhancing the remediation ability of plants in heavy metal contaminated soil by microbial and chemical additives; 2) the molecular effect and mechanism of heavy metals on plant growth and development; 3) discovering novel heavy metal hyper-enriched plants which can remediate mixed heavy metal pollution. From the above analysis, we concluded that the future research directions should be 1) strengthening the plant remediation ability by biochemical means; 2) studying the molecular mechanism underlying heavy metal damage to plants; 3) studying the enrichment principle of plants for heavy metals. The present study provides a further understanding of the trends in phytoremediation of heavy metal pollution, and the data analysed can be used as a guide for future research directions.
To clarify the global status and research hotspots of heavy metal pollution phytoremediation, we used Web of Science, Cite Space software, and VOS viewer to analyse 1123 publications from the period of 2000–2020. Literature categories, research hotpots, and the most prolific publications by country, institution, and author were analysed separately. Around 34% of the articles are contributed from five countries: China (29.37%), India (11.00%), Spain (6.29%), Italy (6.20%), and Pakistan (5.67%). The hot research topic keywords were “diversity”, “translocation”, and “enhanced phytoremediation”. Cadmium was the most highly concerned heavy metal in the phytoremediation. Twenty-three articles were highly cited, and they mainly focused on 1) enhancing the remediation ability of plants in heavy metal contaminated soil by microbial and chemical additives; 2) the molecular effect and mechanism of heavy metals on plant growth and development; 3) discovering novel heavy metal hyper-enriched plants which can remediate mixed heavy metal pollution. From the above analysis, we concluded that the future research directions should be 1) strengthening the plant remediation ability by biochemical means; 2) studying the molecular mechanism underlying heavy metal damage to plants; 3) studying the enrichment principle of plants for heavy metals. The present study provides a further understanding of the trends in phytoremediation of heavy metal pollution, and the data analysed can be used as a guide for future research directions. •Trends and research hotspots of heavy metal phytoremediation were investigated.•China, India, Spain, Italy, and Pakistan contributed to 34% of all analysed articles.•Cadmium was the most highly concerned heavy metal in phytoremediation.•Research should focus on strengthening phytoremediation ability by biochemical means.•Studies on heavy metal damage to plants and enrichment principle of plants are needed.
ArticleNumber 113403
Author Oleksak, Patrik
Yang, Yongsheng
Yang, Le
Wang, Junbang
Wang, Tongxin
Chrienova, Zofia
Wu, Qinghua
Nepovimova, Eugenie
Li, Sha
Kuca, Kamil
Zhang, Xiujuan
Author_xml – sequence: 1
  givenname: Le
  surname: Yang
  fullname: Yang, Le
  organization: College of Horticulture & Gardening, Yangtze University, Jingzhou 434025, China
– sequence: 2
  givenname: Junbang
  surname: Wang
  fullname: Wang, Junbang
  organization: National Ecosystem Science Data Center, Key Laboratory of Ecosystem Network Observation and Modeling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China
– sequence: 3
  givenname: Yongsheng
  surname: Yang
  fullname: Yang, Yongsheng
  organization: The Key Laboratory of Restoration Ecology in Cold Region of Qinghai Province/Northwest Institute of Plateau Biology, Chinese Academy of Science, Xining 810001, China
– sequence: 4
  givenname: Sha
  surname: Li
  fullname: Li, Sha
  organization: School of Geosciences and Info-Physics, Central South University, Changsha 410083, China
– sequence: 5
  givenname: Tongxin
  surname: Wang
  fullname: Wang, Tongxin
  organization: College of Horticulture & Gardening, Yangtze University, Jingzhou 434025, China
– sequence: 6
  givenname: Patrik
  surname: Oleksak
  fullname: Oleksak, Patrik
  organization: Department of Chemistry, Faculty of Science, University of Hradec Kralove, Hradec Kralove 500 03, Czech Republic
– sequence: 7
  givenname: Zofia
  surname: Chrienova
  fullname: Chrienova, Zofia
  organization: Department of Chemistry, Faculty of Science, University of Hradec Kralove, Hradec Kralove 500 03, Czech Republic
– sequence: 8
  givenname: Qinghua
  surname: Wu
  fullname: Wu, Qinghua
  organization: College of Horticulture & Gardening, Yangtze University, Jingzhou 434025, China
– sequence: 9
  givenname: Eugenie
  surname: Nepovimova
  fullname: Nepovimova, Eugenie
  organization: Department of Chemistry, Faculty of Science, University of Hradec Kralove, Hradec Kralove 500 03, Czech Republic
– sequence: 10
  givenname: Xiujuan
  surname: Zhang
  fullname: Zhang, Xiujuan
  email: zxj510@yangtzeu.edu.cn
  organization: College of Horticulture & Gardening, Yangtze University, Jingzhou 434025, China
– sequence: 11
  givenname: Kamil
  surname: Kuca
  fullname: Kuca, Kamil
  email: kamil.kuca@uhk.cz
  organization: Department of Chemistry, Faculty of Science, University of Hradec Kralove, Hradec Kralove 500 03, Czech Republic
BackLink https://www.ncbi.nlm.nih.gov/pubmed/35286961$$D View this record in MEDLINE/PubMed
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Keywords Web of science
Bibliometrics
Cite space
Heavy metal contamination
Phytoremediation
Language English
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Heavy metal contamination
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Web of science
Title Phytoremediation of heavy metal pollution: Hotspots and future prospects
URI https://dx.doi.org/10.1016/j.ecoenv.2022.113403
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