China's most typical nonferrous organic-metal facilities own specific microbial communities

Liu, Jian-li; Yao, Jun; Wang, Fei; Ni, Wen; Liu, Xing-yu; Sunahara, Geoffrey; Duran, Robert; Jordan, Gyozo; Hudson-Edwards, Karen A.; Alakangas, Lena; Šolević Knudsen, Tatjana; Zhu, Xiao-zhe; Zhang, Yi-yue; Li, Zi-fu

doi:10.1038/s41598-018-30519-1

2018

2433.pdf (5.151Mb)

Authors

Liu, Jian-li
Yao, Jun
Wang, Fei
Ni, Wen
Liu, Xing-yu
Sunahara, Geoffrey
Duran, Robert

Jordan, Gyozo
Hudson-Edwards, Karen A.
Alakangas, Lena
Šolević Knudsen, Tatjana

Zhu, Xiao-zhe
Zhang, Yi-yue
Li, Zi-fu

Article (Published version)

Metadata

Show full item record

Abstract

The diversity and function of microorganisms have yet to be explored at non-ferrous metal mining facilities (NMMFs), which are the world's largest and potentially most toxic sources of co-existing metal(loid)s and flotation reagents (FRs). The diversity and inferred functions of different bacterial communities inhabiting two types of sites (active and abandoned) in Guangxi province (China) were investigated for the first time. Here we show that the structure and diversity of bacteria correlated with the types of mine sites, metal(loid) s, and FRs concentrations; and best correlated with the combination of pH, Cu, Pb, and Mn. Combined microbial coenobium may play a pivotal role in NMMFs microbial life. Arenimonas, specific in active mine sites and an acidophilic bacterium, carries functions able to cope with the extreme conditions, whereas Latescibacteria specific in abandoned sites can degrade organics. Such a bacterial consortium provides new insights to develop cost-effective remedia...

Source:
Scientific Reports, 2018, 8

Publisher:

Nature Publishing Group

Funding / projects:

International Key Project from National Natural Science Foundation of China - 41720104007
Projects of Natural Science Foundation of China - 41573080
Projects of Natural Science Foundation of China - U1402234
Projects of Natural Science Foundation of China - 41711530030
Projects of Natural Science Foundation of China - 41711530150
Projects of Natural Science Foundation of China - 41711530224
Public welfare project of Chinese Ministry of Environmental Protection - 201509049
International key project of Ministry of Science and Technology of China - S2016G2135
Fundamental Research Funds for the Central Universities - FRF-OT-16-025
Centre National de la Recherche Scientifique (France) - CNRS PRC1416
Royal Society Newton Mobility Grant - IE161198
National Natural Science Foundation International Joint collaboration China-Sweden - 41430106

DOI: 10.1038/s41598-018-30519-1

ISSN: 2045-2322

PubMed: 30135589

WoS: 000442387900034

Scopus: 2-s2.0-85052145242

[ Google Scholar ]


	20
	15

TY  - JOUR
AU  - Liu, Jian-li
AU  - Yao, Jun
AU  - Wang, Fei
AU  - Ni, Wen
AU  - Liu, Xing-yu
AU  - Sunahara, Geoffrey
AU  - Duran, Robert
AU  - Jordan, Gyozo
AU  - Hudson-Edwards, Karen A.
AU  - Alakangas, Lena
AU  - Šolević Knudsen, Tatjana
AU  - Zhu, Xiao-zhe
AU  - Zhang, Yi-yue
AU  - Li, Zi-fu
PY  - 2018
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/2435
AB  - The diversity and function of microorganisms have yet to be explored at non-ferrous metal mining facilities (NMMFs), which are the world's largest and potentially most toxic sources of co-existing metal(loid)s and flotation reagents (FRs). The diversity and inferred functions of different bacterial communities inhabiting two types of sites (active and abandoned) in Guangxi province (China) were investigated for the first time. Here we show that the structure and diversity of bacteria correlated with the types of mine sites, metal(loid) s, and FRs concentrations; and best correlated with the combination of pH, Cu, Pb, and Mn. Combined microbial coenobium may play a pivotal role in NMMFs microbial life. Arenimonas, specific in active mine sites and an acidophilic bacterium, carries functions able to cope with the extreme conditions, whereas Latescibacteria specific in abandoned sites can degrade organics. Such a bacterial consortium provides new insights to develop cost-effective remediation strategies of co-contaminated sites that currently remain intractable for bioremediation.
PB  - Nature Publishing Group
T2  - Scientific Reports
T1  - China's most typical nonferrous organic-metal facilities own specific microbial communities
VL  - 8
DO  - 10.1038/s41598-018-30519-1
ER  -

@article{
author = "Liu, Jian-li and Yao, Jun and Wang, Fei and Ni, Wen and Liu, Xing-yu and Sunahara, Geoffrey and Duran, Robert and Jordan, Gyozo and Hudson-Edwards, Karen A. and Alakangas, Lena and Šolević Knudsen, Tatjana and Zhu, Xiao-zhe and Zhang, Yi-yue and Li, Zi-fu",
year = "2018",
abstract = "The diversity and function of microorganisms have yet to be explored at non-ferrous metal mining facilities (NMMFs), which are the world's largest and potentially most toxic sources of co-existing metal(loid)s and flotation reagents (FRs). The diversity and inferred functions of different bacterial communities inhabiting two types of sites (active and abandoned) in Guangxi province (China) were investigated for the first time. Here we show that the structure and diversity of bacteria correlated with the types of mine sites, metal(loid) s, and FRs concentrations; and best correlated with the combination of pH, Cu, Pb, and Mn. Combined microbial coenobium may play a pivotal role in NMMFs microbial life. Arenimonas, specific in active mine sites and an acidophilic bacterium, carries functions able to cope with the extreme conditions, whereas Latescibacteria specific in abandoned sites can degrade organics. Such a bacterial consortium provides new insights to develop cost-effective remediation strategies of co-contaminated sites that currently remain intractable for bioremediation.",
publisher = "Nature Publishing Group",
journal = "Scientific Reports",
title = "China's most typical nonferrous organic-metal facilities own specific microbial communities",
volume = "8",
doi = "10.1038/s41598-018-30519-1"
}

Liu, J., Yao, J., Wang, F., Ni, W., Liu, X., Sunahara, G., Duran, R., Jordan, G., Hudson-Edwards, K. A., Alakangas, L., Šolević Knudsen, T., Zhu, X., Zhang, Y.,& Li, Z.. (2018). China's most typical nonferrous organic-metal facilities own specific microbial communities. in Scientific Reports
Nature Publishing Group., 8.
https://doi.org/10.1038/s41598-018-30519-1

Liu J, Yao J, Wang F, Ni W, Liu X, Sunahara G, Duran R, Jordan G, Hudson-Edwards KA, Alakangas L, Šolević Knudsen T, Zhu X, Zhang Y, Li Z. China's most typical nonferrous organic-metal facilities own specific microbial communities. in Scientific Reports. 2018;8.
doi:10.1038/s41598-018-30519-1 .

Liu, Jian-li, Yao, Jun, Wang, Fei, Ni, Wen, Liu, Xing-yu, Sunahara, Geoffrey, Duran, Robert, Jordan, Gyozo, Hudson-Edwards, Karen A., Alakangas, Lena, Šolević Knudsen, Tatjana, Zhu, Xiao-zhe, Zhang, Yi-yue, Li, Zi-fu, "China's most typical nonferrous organic-metal facilities own specific microbial communities" in Scientific Reports, 8 (2018),
https://doi.org/10.1038/s41598-018-30519-1 . .