Ph. D. David HUGUENOT

Implementation of a bioaugmentation-assisted phytoextraction process for the treatment of copper contaminated sediments coming from vineyard soils: lab set up and microcosm application

Thesis defended in July 2010

Under the direction of Thierry LEBEAU

Abstract

Intensive pesticides use in viticulture combined with runoff often result in amounts of Cu getting to storm basins (SB). Biological pesticide mitigation has been observed and related to the role of natural macrophyte together with their associated microflora. Nevertheless, low and variable mitigation levels are most often reported. Cu phytoextraction is a promising in situ technology but requires time. Bioaugmentation-assisted phytoextraction is a new technology that may enhance the phytoextraction rate. The study consisted in selecting the best “microorganism-plant-sorbent” association in order to extract Cu from sediments and mitigate Cu load in SB outlet waters. The association of these three selected components has been studied in SB-scaled microcosms filled with a sand-sediment mixture to a better understanding of the depollution process feasibility. Among the 564 isolates extracted from SB sediments, 84 were able to complex metals and isolate 106 was selected for the process implementation on the base of its ability to complex Cu. On the 3 studied macrophytes, Phragmites australis accumulated more Cu in aerial parts. Finally, sugar beet pulp has been selected as the best Cu sorbant in mixture with herbicides and in a complex matrix. Microcosm experiments that associated the best three components were carried out. Results showed that sugar beet pulp located at the outlet of microcosms reduced significantly (20 %) Cu amounts in outlet waters to reach a mitigation rate of 95%. Cu extraction in aerial parts of P. australis has been improved by a factor of 1,7 thanks to an intermittent wate Joad, with drying and rewetting periods along with repeated inoculations.