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Exploring the complex response to linuron of bacterial communities from biopurification systems by means of cultivation-independent methods

On-farm biopurification systems (BPSs) treat pesticide-contaminated wastewater at farms through biodegradation and sorption processes. However, information on the microbiota involved in pesticide removal in BPSs is scarce. Here we report on the response of BPS bacterial communities to the herbicide...

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Published in:	FEMS microbiology ecology 2016-02, Vol.92 (2), p.1
Main Authors:	Dealtry, Simone, Nour, Eman H, Holmsgaard, Peter N, Ding, Guo-Chun, Weichelt, Viola, Dunon, Vincent, Heuer, Holger, Hansen, Lars H, Sorensen, Soren J, Springael, Dirk, Smalla, Kornelia
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Language:	English
Subjects:	Environmental aspects Herbicides Microbial colonies Physiological aspects
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container_title	FEMS microbiology ecology
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creator	Dealtry, Simone Nour, Eman H Holmsgaard, Peter N Ding, Guo-Chun Weichelt, Viola Dunon, Vincent Heuer, Holger Hansen, Lars H Sorensen, Soren J Springael, Dirk Smalla, Kornelia
description	On-farm biopurification systems (BPSs) treat pesticide-contaminated wastewater at farms through biodegradation and sorption processes. However, information on the microbiota involved in pesticide removal in BPSs is scarce. Here we report on the response of BPS bacterial communities to the herbicide linuron (BPS+) compared with the control (BPS (-)) in a microcosm experiment. Both denaturing gradient gel electrophoresis (DGGE) and pyrosequencing of 16S rRNA gene fragments amplified from community DNA indicated shifts in the bacterial community after linuron application. Responding populations belonged to taxa that were previously reported from linuron degrading consortia cultivated from soil (Hyphomicrobiaceae, Comamonadaceae, Micrococcaceae). In addition, numerous taxa with increased relative abundance were identified that were previously not associated with linuron degradation. The relative abundance of IncP-1 korB copies increased in response to linuron application. Amplicon pyrosequencing of IncP-1 trfA genes revealed a high IncP-1 plasmid diversity and suggested that populations carrying IncP-1[beta] plasmids increased in relative abundance. Transferable mercury resistance plasmids were exogenously captured from BP[S.sup.+]/BP[S.sup.-], and in three transconjugants from BP[S.sup.+] the gene hylA was detected. Our data suggest the existence of a multispecies linuron degrading bacterial food web and an involvement of IncP-1 plasmids in the adaptation of bacterial communities to pesticide pollution in BPSs. Keywords: linuron; degradation; pesticide; IncP-1
doi_str_mv	10.1093/femsec/fiv157</DO
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Amplicon pyrosequencing of IncP-1 trfA genes revealed a high IncP-1 plasmid diversity and suggested that populations carrying IncP-1[beta] plasmids increased in relative abundance. Transferable mercury resistance plasmids were exogenously captured from BP[S.sup.+]/BP[S.sup.-], and in three transconjugants from BP[S.sup.+] the gene hylA was detected. Our data suggest the existence of a multispecies linuron degrading bacterial food web and an involvement of IncP-1 plasmids in the adaptation of bacterial communities to pesticide pollution in BPSs. 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subjects	Environmental aspects Herbicides Microbial colonies Physiological aspects
title	Exploring the complex response to linuron of bacterial communities from biopurification systems by means of cultivation-independent methods
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