| Title | Soil microbial respiration and PICT responses to an industrial and historic lead pollution: a field study |
| Publication Type | Journal Article |
| Year of Publication | 2016 |
| Authors | Bérard A., Capowiez L., Mombo S., Schreck E., Dumat C., Deola F., Capowiez Y. |
| Journal | Environmental Science and Pollution Research |
| Volume | 23 |
| Pagination | 4271-4281 |
| Date Published | Mar |
| Type of Article | Article |
| ISBN Number | 0944-1344 |
| Accession Number | WOS:000371156100027 |
| Keywords | ADAPTATION, bacterial communities, contamination, forest, heavy metals, heavy-metals, INDUCED COMMUNITY TOLERANCE, Lead, MECHANISMS, MICROBIAL, Microbial ecotoxicology, microresp (tm), microresp(tm) method, physiological profiles, physiological traits, pollution-induced community tolerance, RISK-ASSESSMENT, Soilmicrobial communities, substrate-induced respiration |
| Abstract | We performed a field investigation to study the long-term impacts of Pb soil contamination on soil microbial communities and their catabolic structure in the context of an industrial site consisting of a plot of land surrounding a secondary lead smelter. Microbial biomass, catabolic profiles, and ecotoxicological responses (PICT) were monitored on soils sampled at selected locations along 110-m transects established on the site. We confirmed the high toxicity of Pb on respirations and microbial and fungal biomasses by measuring positive correlations with distance from the wall factory and negative correlation with total Pb concentrations. Pb contamination also induced changes in microbial and fungal catabolic structure (from carbohydrates to amino acids through carboxylic malic acid). Moreover, PICT measurement allowed to establish causal linkages between lead and its effect on biological communities taking into account the contamination history of the ecosystem at community level. The positive correlation between qCO(2) (based on respiration and substrate use) and PICT suggested that the Pb stress-induced acquisition of tolerance came at a greater energy cost for microbial communities in order to cope with the toxicity of the metal. In this industrial context of long-term polymetallic contamination dominated by Pb in a field experiment, we confirmed impacts of this metal on soil functioning through microbial communities, as previously observed for earthworm communities.
|
| Short Title | Environ. Sci. Pollut. Res.Environ. Sci. Pollut. Res. |
| Alternate Journal | Environ. Sci. Pollut. Res. |
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Berard, Annette Capowiez, Line Mombo, Stephane Schreck, Eva Dumat, Camille Deola, Frederic Capowiez, Yvan
ADEME (French Agency of the Environment and Energy); company STCM (Societe de Traitements Chimiques des Metaux); INSU-EC2CO program (Biotuba Project)
We gratefully acknowledge ADEME (French Agency of the Environment and Energy) as well as the company STCM (Societe de Traitements Chimiques des Metaux) for their technical help and financial support. This work was also supported by the INSU-EC2CO program (Biotuba Project). We thank G. Sevenier for his technical support. The text was language-edited by ATT (an ISO 9001:2008-certified technical and scientific translation and editing services company).
SPRINGER HEIDELBERG
HEIDELBERG
ENVIRON SCI POLLUT R
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Berard, A (reprint author), INRA, EMMAH UMR1114, F-84914 Avignon, France.; Berard, A (reprint author), UAPV, EMMAH UMR1114, F-84914 Avignon, France.
annette.berard@avignon.inra.fr
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