Survival of prokaryotes in a polluted waste dump during remediation by alkaline hydrolysis
A combination of culture-dependent and culture-independent techniques was used to characterize bacterial and archaeal communities in a highly polluted waste dump and to assess the effect of remediation by alkaline hydrolysis on these communities. This waste dump (Breakwater 42), located in Denmark,...
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Veröffentlicht in: | Ecotoxicology (London) 2014-04, Vol.23 (3), p.404-418 |
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description | A combination of culture-dependent and culture-independent techniques was used to characterize bacterial and archaeal communities in a highly polluted waste dump and to assess the effect of remediation by alkaline hydrolysis on these communities. This waste dump (Breakwater 42), located in Denmark, contains approximately 100 different toxic compounds including large amounts of organophosphorous pesticides such as parathions. The alkaline hydrolysis (12 months at pH >12) decimated bacterial and archaeal abundances, as estimated by 16S rRNA gene–based qPCR, from 2.1 × 10
4
and 2.9 × 10
3
gene copies per gram wet soil respectively to below the detection limit of the qPCR assay. Clone libraries constructed from PCR-amplified 16S rRNA gene fragments showed a significant reduction in bacterial diversity as a result of the alkaline hydrolysis, with preferential survival of Betaproteobacteria, which increased in relative abundance from 0 to 48 %. Many of the bacterial clone sequences and the 27 isolates were related to known xenobiotic degraders. An archaeal clone library from a non-hydrolyzed sample showed the presence of three main clusters, two representing methanogens and one representing marine aerobic ammonia oxidizers. Isolation of alkalitolerant bacterial pure cultures from the hydrolyzed soil confirmed that although alkaline hydrolysis severely reduces microbial community diversity and size certain bacteria survive a prolonged alkaline hydrolysis process. Some of the isolates from the hydrolyzed soil were capable of growing at high pH (pH 10.0) in synthetic media indicating that they could become active in in situ biodegradation upon hydrolysis. |
doi_str_mv | 10.1007/s10646-014-1205-y |
format | Article |
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4
and 2.9 × 10
3
gene copies per gram wet soil respectively to below the detection limit of the qPCR assay. Clone libraries constructed from PCR-amplified 16S rRNA gene fragments showed a significant reduction in bacterial diversity as a result of the alkaline hydrolysis, with preferential survival of Betaproteobacteria, which increased in relative abundance from 0 to 48 %. Many of the bacterial clone sequences and the 27 isolates were related to known xenobiotic degraders. An archaeal clone library from a non-hydrolyzed sample showed the presence of three main clusters, two representing methanogens and one representing marine aerobic ammonia oxidizers. Isolation of alkalitolerant bacterial pure cultures from the hydrolyzed soil confirmed that although alkaline hydrolysis severely reduces microbial community diversity and size certain bacteria survive a prolonged alkaline hydrolysis process. Some of the isolates from the hydrolyzed soil were capable of growing at high pH (pH 10.0) in synthetic media indicating that they could become active in in situ biodegradation upon hydrolysis.</description><identifier>ISSN: 0963-9292</identifier><identifier>EISSN: 1573-3017</identifier><identifier>DOI: 10.1007/s10646-014-1205-y</identifier><identifier>PMID: 24532314</identifier><identifier>CODEN: ECOTEL</identifier><language>eng</language><publisher>Boston: Springer US</publisher><subject>Archaea ; Bacteria ; Betaproteobacteria - genetics ; Betaproteobacteria - growth & development ; Biodegradation ; Biodiversity ; Breakwaters ; Communities ; Denmark ; Earth and Environmental Science ; Ecology ; Ecotoxicology ; Environment ; Environmental Management ; Environmental Restoration and Remediation - methods ; Genes ; Groundwater - microbiology ; Hydrogen-Ion Concentration ; Hydrolysis ; Landfills ; Microbial Consortia ; Molecular Sequence Data ; Pesticides ; Polymerase Chain Reaction ; Refuse and refuse disposal ; Relative abundance ; Remediation ; RNA ; RNA, Ribosomal, 16S ; Soil (material) ; Soil Microbiology ; Waste Disposal Facilities ; Waste dumps</subject><ispartof>Ecotoxicology (London), 2014-04, Vol.23 (3), p.404-418</ispartof><rights>Springer Science+Business Media New York 2014</rights><rights>COPYRIGHT 2014 Springer</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c543t-55a252736a23af5e909dda361a6df101d3616dd472ee7e78a40b86078b7899e23</citedby><cites>FETCH-LOGICAL-c543t-55a252736a23af5e909dda361a6df101d3616dd472ee7e78a40b86078b7899e23</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktopdf>$$Uhttps://link.springer.com/content/pdf/10.1007/s10646-014-1205-y$$EPDF$$P50$$Gspringer$$H</linktopdf><linktohtml>$$Uhttps://link.springer.com/10.1007/s10646-014-1205-y$$EHTML$$P50$$Gspringer$$H</linktohtml><link.rule.ids>315,782,786,27931,27932,41495,42564,51326</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/24532314$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Nielsen, Marie Bank</creatorcontrib><creatorcontrib>Kjeldsen, Kasper Urup</creatorcontrib><creatorcontrib>Lever, Mark Alexander</creatorcontrib><creatorcontrib>Ingvorsen, Kjeld</creatorcontrib><title>Survival of prokaryotes in a polluted waste dump during remediation by alkaline hydrolysis</title><title>Ecotoxicology (London)</title><addtitle>Ecotoxicology</addtitle><addtitle>Ecotoxicology</addtitle><description>A combination of culture-dependent and culture-independent techniques was used to characterize bacterial and archaeal communities in a highly polluted waste dump and to assess the effect of remediation by alkaline hydrolysis on these communities. This waste dump (Breakwater 42), located in Denmark, contains approximately 100 different toxic compounds including large amounts of organophosphorous pesticides such as parathions. The alkaline hydrolysis (12 months at pH >12) decimated bacterial and archaeal abundances, as estimated by 16S rRNA gene–based qPCR, from 2.1 × 10
4
and 2.9 × 10
3
gene copies per gram wet soil respectively to below the detection limit of the qPCR assay. Clone libraries constructed from PCR-amplified 16S rRNA gene fragments showed a significant reduction in bacterial diversity as a result of the alkaline hydrolysis, with preferential survival of Betaproteobacteria, which increased in relative abundance from 0 to 48 %. Many of the bacterial clone sequences and the 27 isolates were related to known xenobiotic degraders. An archaeal clone library from a non-hydrolyzed sample showed the presence of three main clusters, two representing methanogens and one representing marine aerobic ammonia oxidizers. Isolation of alkalitolerant bacterial pure cultures from the hydrolyzed soil confirmed that although alkaline hydrolysis severely reduces microbial community diversity and size certain bacteria survive a prolonged alkaline hydrolysis process. Some of the isolates from the hydrolyzed soil were capable of growing at high pH (pH 10.0) in synthetic media indicating that they could become active in in situ biodegradation upon hydrolysis.</description><subject>Archaea</subject><subject>Bacteria</subject><subject>Betaproteobacteria - genetics</subject><subject>Betaproteobacteria - growth & development</subject><subject>Biodegradation</subject><subject>Biodiversity</subject><subject>Breakwaters</subject><subject>Communities</subject><subject>Denmark</subject><subject>Earth and Environmental Science</subject><subject>Ecology</subject><subject>Ecotoxicology</subject><subject>Environment</subject><subject>Environmental Management</subject><subject>Environmental Restoration and Remediation - methods</subject><subject>Genes</subject><subject>Groundwater - microbiology</subject><subject>Hydrogen-Ion Concentration</subject><subject>Hydrolysis</subject><subject>Landfills</subject><subject>Microbial Consortia</subject><subject>Molecular Sequence Data</subject><subject>Pesticides</subject><subject>Polymerase Chain Reaction</subject><subject>Refuse and refuse disposal</subject><subject>Relative abundance</subject><subject>Remediation</subject><subject>RNA</subject><subject>RNA, Ribosomal, 16S</subject><subject>Soil (material)</subject><subject>Soil Microbiology</subject><subject>Waste Disposal Facilities</subject><subject>Waste 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Kjeld</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Survival of prokaryotes in a polluted waste dump during remediation by alkaline hydrolysis</atitle><jtitle>Ecotoxicology (London)</jtitle><stitle>Ecotoxicology</stitle><addtitle>Ecotoxicology</addtitle><date>2014-04-01</date><risdate>2014</risdate><volume>23</volume><issue>3</issue><spage>404</spage><epage>418</epage><pages>404-418</pages><issn>0963-9292</issn><eissn>1573-3017</eissn><coden>ECOTEL</coden><abstract>A combination of culture-dependent and culture-independent techniques was used to characterize bacterial and archaeal communities in a highly polluted waste dump and to assess the effect of remediation by alkaline hydrolysis on these communities. This waste dump (Breakwater 42), located in Denmark, contains approximately 100 different toxic compounds including large amounts of organophosphorous pesticides such as parathions. The alkaline hydrolysis (12 months at pH >12) decimated bacterial and archaeal abundances, as estimated by 16S rRNA gene–based qPCR, from 2.1 × 10
4
and 2.9 × 10
3
gene copies per gram wet soil respectively to below the detection limit of the qPCR assay. Clone libraries constructed from PCR-amplified 16S rRNA gene fragments showed a significant reduction in bacterial diversity as a result of the alkaline hydrolysis, with preferential survival of Betaproteobacteria, which increased in relative abundance from 0 to 48 %. Many of the bacterial clone sequences and the 27 isolates were related to known xenobiotic degraders. An archaeal clone library from a non-hydrolyzed sample showed the presence of three main clusters, two representing methanogens and one representing marine aerobic ammonia oxidizers. Isolation of alkalitolerant bacterial pure cultures from the hydrolyzed soil confirmed that although alkaline hydrolysis severely reduces microbial community diversity and size certain bacteria survive a prolonged alkaline hydrolysis process. Some of the isolates from the hydrolyzed soil were capable of growing at high pH (pH 10.0) in synthetic media indicating that they could become active in in situ biodegradation upon hydrolysis.</abstract><cop>Boston</cop><pub>Springer US</pub><pmid>24532314</pmid><doi>10.1007/s10646-014-1205-y</doi><tpages>15</tpages></addata></record> |
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subjects | Archaea Bacteria Betaproteobacteria - genetics Betaproteobacteria - growth & development Biodegradation Biodiversity Breakwaters Communities Denmark Earth and Environmental Science Ecology Ecotoxicology Environment Environmental Management Environmental Restoration and Remediation - methods Genes Groundwater - microbiology Hydrogen-Ion Concentration Hydrolysis Landfills Microbial Consortia Molecular Sequence Data Pesticides Polymerase Chain Reaction Refuse and refuse disposal Relative abundance Remediation RNA RNA, Ribosomal, 16S Soil (material) Soil Microbiology Waste Disposal Facilities Waste dumps |
title | Survival of prokaryotes in a polluted waste dump during remediation by alkaline hydrolysis |
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