Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data

Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data

The east and southeast rim of Harz mountains (Germany) are marked by a high density of former copper mining places dating back from the late 20th century to the middle age. A set of 18 soil samples from pre- and early industrial mining places and one sample from an industrial mine dump have been sel...

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Main Authors: J. Michael Köhler, Nancy Beetz, Peter Mike Günther, Frances Möller, Jialan Cao
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Microorganisms
Subjects:
soil bacteria
ancient mining places
halophiles
acidophiles
thermophiles
psychrophiles
Online Access:https://www.mdpi.com/2076-2607/9/7/1422
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spelling doaj-be18a85314204ed9aae4533371cf8b5b2021-07-23T13:55:10ZengMDPI AGMicroorganisms2076-26072021-06-0191422142210.3390/microorganisms9071422Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA DataJ. Michael Köhler0Nancy Beetz1Peter Mike Günther2Frances Möller3Jialan Cao4Department of Physical Chemistry and Microreaction Technology, Institute for Micro and Nanotechnologies/Institute for Chemistry and Biotechnology, Technical University Ilmenau, 98693 Ilmenau, GermanyDepartment of Physical Chemistry and Microreaction Technology, Institute for Micro and Nanotechnologies/Institute for Chemistry and Biotechnology, Technical University Ilmenau, 98693 Ilmenau, GermanyDepartment of Physical Chemistry and Microreaction Technology, Institute for Micro and Nanotechnologies/Institute for Chemistry and Biotechnology, Technical University Ilmenau, 98693 Ilmenau, GermanyDepartment of Physical Chemistry and Microreaction Technology, Institute for Micro and Nanotechnologies/Institute for Chemistry and Biotechnology, Technical University Ilmenau, 98693 Ilmenau, GermanyDepartment of Physical Chemistry and Microreaction Technology, Institute for Micro and Nanotechnologies/Institute for Chemistry and Biotechnology, Technical University Ilmenau, 98693 Ilmenau, GermanyThe east and southeast rim of Harz mountains (Germany) are marked by a high density of former copper mining places dating back from the late 20th century to the middle age. A set of 18 soil samples from pre- and early industrial mining places and one sample from an industrial mine dump have been selected for investigation by 16S rRNA and compared with six samples from non-mining areas. Although most of the soil samples from the old mines show pH values around 7, RNA profiling reflects many operational taxonomical units (OTUs) belonging to acidophilic genera. For some of these OTUs, similarities were found with their abundances in the comparative samples, while others show significant differences. In addition to pH-dependent bacteria, thermophilic, psychrophilic, and halophilic types were observed. Among these OTUs, several DNA sequences are related to bacteria which are reported to show the ability to metabolize special substrates. Some OTUs absent in comparative samples from limestone substrates, among them <i>Thaumarchaeota</i> were present in the soil group from ancient mines with pH > 7. In contrast, acidophilic types have been found in a sample from a copper slag deposit, e.g., the polymer degrading bacterium <i>Granulicella</i> and <i>Acidicaldus</i>, which is thermophilic, too. Soil samples of the group of pre-industrial mines supplied some less abundant, interesting OTUs as the polymer-degrading <i>Povalibacter</i> and the halophilic <i>Lewinella</i> and <i>Halobacteriovorax</i>. A particularly high number of bacteria (OTUs) which had not been detected in other samples were found at an industrial copper mine dump, among them many halophilic and psychrophilic types. In summary, the results show that soil samples from the ancient copper mining places contain soil bacterial communities that could be a promising source in the search for microorganisms with valuable metabolic capabilities.https://www.mdpi.com/2076-2607/9/7/1422soil bacteriaancient mining placeshalophilesacidophilesthermophilespsychrophiles
collection DOAJ
language English
format Article
sources DOAJ
author J. Michael Köhler
Nancy Beetz
Peter Mike Günther
Frances Möller
Jialan Cao
spellingShingle J. Michael Köhler
Nancy Beetz
Peter Mike Günther
Frances Möller
Jialan Cao
Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data
Microorganisms
soil bacteria
ancient mining places
halophiles
acidophiles
thermophiles
psychrophiles
author_facet J. Michael Köhler
Nancy Beetz
Peter Mike Günther
Frances Möller
Jialan Cao
author_sort J. Michael Köhler
title Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data
title_short Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data
title_full Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data
title_fullStr Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data
title_full_unstemmed Extremophiles in Soil Communities of Former Copper Mining Sites of the East Harz Region (Germany) Reflected by Re-Analyzed 16S rRNA Data
title_sort extremophiles in soil communities of former copper mining sites of the east harz region (germany) reflected by re-analyzed 16s rrna data
publisher MDPI AG
series Microorganisms
issn 2076-2607
publishDate 2021-06-01
description The east and southeast rim of Harz mountains (Germany) are marked by a high density of former copper mining places dating back from the late 20th century to the middle age. A set of 18 soil samples from pre- and early industrial mining places and one sample from an industrial mine dump have been selected for investigation by 16S rRNA and compared with six samples from non-mining areas. Although most of the soil samples from the old mines show pH values around 7, RNA profiling reflects many operational taxonomical units (OTUs) belonging to acidophilic genera. For some of these OTUs, similarities were found with their abundances in the comparative samples, while others show significant differences. In addition to pH-dependent bacteria, thermophilic, psychrophilic, and halophilic types were observed. Among these OTUs, several DNA sequences are related to bacteria which are reported to show the ability to metabolize special substrates. Some OTUs absent in comparative samples from limestone substrates, among them <i>Thaumarchaeota</i> were present in the soil group from ancient mines with pH > 7. In contrast, acidophilic types have been found in a sample from a copper slag deposit, e.g., the polymer degrading bacterium <i>Granulicella</i> and <i>Acidicaldus</i>, which is thermophilic, too. Soil samples of the group of pre-industrial mines supplied some less abundant, interesting OTUs as the polymer-degrading <i>Povalibacter</i> and the halophilic <i>Lewinella</i> and <i>Halobacteriovorax</i>. A particularly high number of bacteria (OTUs) which had not been detected in other samples were found at an industrial copper mine dump, among them many halophilic and psychrophilic types. In summary, the results show that soil samples from the ancient copper mining places contain soil bacterial communities that could be a promising source in the search for microorganisms with valuable metabolic capabilities.
topic soil bacteria
ancient mining places
halophiles
acidophiles
thermophiles
psychrophiles
url https://www.mdpi.com/2076-2607/9/7/1422
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