Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers

Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers

Lead (Pb) is a common environmental contaminant found in soils. Unlike other metals, Pb has no biological role, and is potentially toxic to microorganisms. Effects of low (1 ppm) and high (500-2000) levels of lead (Pb) upon the soil microbial community was investigated by the PCR/DGGE analysis of th...

Full description

Bibliographic Details
Main Authors: Maria Begonia, Dmitri Sobolev
Format: Article
Language:English
Published: MDPI AG 2008-12-01
Series:International Journal of Environmental Research and Public Health
Subjects:
Lead
16S
soil
DGGE
microbial diversity
Online Access:http://www.mdpi.com/1660-4601/5/5/450/
id doaj-95f830d5ee154b85936c7fd2c871f4d2
record_format Article
spelling doaj-95f830d5ee154b85936c7fd2c871f4d22020-11-24T20:46:20ZengMDPI AGInternational Journal of Environmental Research and Public Health1660-46012008-12-015545045610.3390/ijerph5050450Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular MarkersMaria BegoniaDmitri SobolevLead (Pb) is a common environmental contaminant found in soils. Unlike other metals, Pb has no biological role, and is potentially toxic to microorganisms. Effects of low (1 ppm) and high (500-2000) levels of lead (Pb) upon the soil microbial community was investigated by the PCR/DGGE analysis of the 16S and nirK gene markers, indicative of general microbial community and denitrifying community, respectively. Community analysis by use of those markers had shown that Pb has detectable effects upon the community diversity even at the lowest concentration tested. Analysis of sample diversity and similarity between the samples suggested that there are several thresholds crossed as metal concentration increase, each causing a substantial change in microbial diversity. Preliminary data obtained in this study suggest that the denitrifying microbial community adapts to elevated levels of Pb by selecting for metal-resistant forms of nitrite reductases.http://www.mdpi.com/1660-4601/5/5/450/Lead16SsoilDGGEmicrobial diversity
collection DOAJ
language English
format Article
sources DOAJ
author Maria Begonia
Dmitri Sobolev
spellingShingle Maria Begonia
Dmitri Sobolev
Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers
International Journal of Environmental Research and Public Health
Lead
16S
soil
DGGE
microbial diversity
author_facet Maria Begonia
Dmitri Sobolev
author_sort Maria Begonia
title Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers
title_short Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers
title_full Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers
title_fullStr Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers
title_full_unstemmed Effects of Heavy Metal Contamination upon Soil Microbes: Lead-induced Changes in General and Denitrifying Microbial Communities as Evidenced by Molecular Markers
title_sort effects of heavy metal contamination upon soil microbes: lead-induced changes in general and denitrifying microbial communities as evidenced by molecular markers
publisher MDPI AG
series International Journal of Environmental Research and Public Health
issn 1660-4601
publishDate 2008-12-01
description Lead (Pb) is a common environmental contaminant found in soils. Unlike other metals, Pb has no biological role, and is potentially toxic to microorganisms. Effects of low (1 ppm) and high (500-2000) levels of lead (Pb) upon the soil microbial community was investigated by the PCR/DGGE analysis of the 16S and nirK gene markers, indicative of general microbial community and denitrifying community, respectively. Community analysis by use of those markers had shown that Pb has detectable effects upon the community diversity even at the lowest concentration tested. Analysis of sample diversity and similarity between the samples suggested that there are several thresholds crossed as metal concentration increase, each causing a substantial change in microbial diversity. Preliminary data obtained in this study suggest that the denitrifying microbial community adapts to elevated levels of Pb by selecting for metal-resistant forms of nitrite reductases.
topic Lead
16S
soil
DGGE
microbial diversity
url http://www.mdpi.com/1660-4601/5/5/450/
work_keys_str_mv AT mariabegonia effectsofheavymetalcontaminationuponsoilmicrobesleadinducedchangesingeneralanddenitrifyingmicrobialcommunitiesasevidencedbymolecularmarkers
AT dmitrisobolev effectsofheavymetalcontaminationuponsoilmicrobesleadinducedchangesingeneralanddenitrifyingmicrobialcommunitiesasevidencedbymolecularmarkers
_version_ 1716812930249392128

Similar Items