L'outil d'aide à la décision GeDSeT : évaluer les impacts et bénéfices de différentes options de gestion des sédiments

National audienceThe GeDSeT decision support tool: evaluating impacts and benefits of different options for sediment managemen

Cd localisation and speciation in a contaminated sediment and in the Znand Cd hyperaccumulating plant Arabidopsis halleri

International audienceThe purpose of this work was to characterise the chemical speciation of Cd in a Zn- and Cd-contaminated dredged sediment subjected to a phytoremediation treatment with the hyperaccumulator plant Arabidopsis halleri

The GeDSeT project: (constitution of a decision support tool (DST) for the management and material recovery of waterways sediments in Belgium and Northern France)

International audienceThe European InterReg IV GeDSeT project (2008-2013) is a contribution to a sustainable management of waterways sediments, in order to develop good practice for the development of regional fluvial transport, water resource protection and land resources preservation. The GeDSeT decision support tool (DST), one of the results of this project, carried out as a partnership between Ecole des Mines de Douai, ISSeP, CTP, INERIS and BRGM, members of the GIS-3SP cluster, aims to provide sediment management options with relevant quantitative data, in order to evaluate various scenarios taking into account cost and sustainability

Phytostabilisation d'un site pollué par les éléments traces : opération pilote et pérennité du traitement

National audienceGrâce à l'utilisation combinée de plantes et d'agents immobilisants, la phytostabilisation assistée limite les risques associés à un sol contaminé en réduisant la biodisponibilité des polluants. Le rôle des plantes est de réduire le lessivage et l'érosion. En Europe et dans le monde, de nombreux sites ont déjà été phytostabilisés avec succès. Cependant, peu de projets de phytostabilisation associent une surface et une durée d'expérimentation suffisantes pour établir l'efficacité sur le long terme et en conditions réelles d'une telle pratique pour la gestion d'un site pollué. La nécessité de conduire des opérations pilotes sur une longue durée a été ainsi mise en avant par la communauté scientifique. L'objectif de ce projet mené sur un dispositif pilote mis en place en 2002 est d'estimer l'efficacité dans le temps d'une phytostabilisation assistée appliquée à un sédiment pollué par les éléments traces (Cd, Zn, Pb, Cu, As). Les paramètres suivis dans cette étude sont liés aux plantes initialement semées, aux espèces végétales venues spontanément coloniser le dispositif, aux agents immobilisants utilisés et aux caractéristiques physico-agronomiques de la matrice polluée. Une synthèse des résultats obtenus sur 7 années de suivi sera présentée lors du colloque

Fate of cadmium in the rhizosphere of Arabidopsis halleri grown in a contaminated dredged sediment

International audienceIn regions impacted by mining and smelting activities, dredged sediments are often contaminated with metals. Phytotechnologies could be used for their management, but more knowledge on the speciation of metals in the sediment and on their fate after colonization by plant roots is needed. This work was focused on a Zn, Cd-contaminated contaminated dredged sediment from the Scarpe river (North of France). Zn, Cd hyperaccumulating plants Arabidopsis halleri from metallicolous and non metallicolous origin were grown on the sediment for five months in a pot experiment. The nature and extent of the modifications in Cd speciation with or without plant were determined by electron microscopy, micro X-ray fluorescence and bulk and micro X-ray absorption spectroscopy. In addition, changes in Cd exchangeable and bioavailable pools were evaluated, and Cd content in leachates was measured. Finally, Cd plant uptake and plant growth parameters were monitored. In the original sediment, Cd was present as a mixed Zn, Cd, Fe sulfide. After five months, although pots still contained reduced sulfur, Cd-bearing sulfides were totally oxidized in vegetated pots, whereas a minor fraction (8%) was still present in non vegetated ones. Secondary species included Cd bound to O-containing groups of organic matter and Cd phosphates. Cd exchangeability and bioavailability were relatively low and did not increase during changes in Cd speciation, suggesting that Cd released by sulfide oxidation was readily taken up with strong interactions with organic matter and phosphate ligands. Thus, the composition of the sediment, the oxic conditions and the rhizospheric activity (regardless of the plant origin) created favourable conditions for Cd stabilization. However, it should be kept in mind that returning to anoxic conditions may change Cd speciation, so the species formed cannot be considered as stable on the long term

The GeDSeT project: constitution of a decision support tool (DST) for the management and material recovery of waterways sediments in Belgium and Northern France

International audienceThe European InterReg IV GeDSeT project (2008-2011) is a contribution to a sustainable management of waterways sediments, in order to develop good practice in a perspective of water resource protection and of the development of regional fluvial transport. Waterways sediments are a major environmental issue in the Walloon region of Belgium - Northern France trans-boundary region for several reasons, all of them resulting from the dense habitat, industrial pattern and waterways network, and of a long industrial history. Sediments affect water resources quality, through pollution, and availability, through flooding. Sediment dredging allows the development of environmentally-friendly regional fluvial transport, but also generates important waste deposits. Therefore material recovery for reuse in buildings or infrastructure is a key issue, as it allows a reduction of waste and limits the need for natural resources for the same use. In order to address waterways sediments management in a global way, the GeDSeT project intends to capitalise know-how regarding the criteria to take into account for a sustainable management, and to include them in a decision support methodology applicable to the transboundary context. Such decision support aims at developing good practice in a perspective of water resource management and development of regional fluvial transport. Relevant criteria include: - criteria evaluating the physical and chemical characteristics of the sediments to be dredged, and their level of contamination, - costs of dredging operations and benefits with respect to improved waterways, - potential material value and costs of sediment treatment for material recovery versus costs of sediment deposit management. The decision support methodology will rely in part on previous BRGM and European experience in the development of an environmentally extended, physical, quasi-dynamic input-output model for waste management. Experience from other specific DSTs on sediments will be valorised with the project partners. Potential recovery of secondary resources from dredged sediment will be addressed through a review and economic evaluation of available technologies, technical and economical constraints, side effects on the uses of recovered products, and a global balance of the environmental costs and benefits. Social and employment impacts, as well as land use issues in this densely populated area will be fully acknowledged as primary decision-support criteria. The expected benefit of the project comprises also the transboundary comparison of specific situations and methods, issued from a different history.Le projet InterReg IV GeDSeT (2008-2011) est une contribution à une gestion globale durable des sédiments des voies d’eau, au développement du transport régional fluvial et de bonnes pratiques pour la protection des ressources en eau et de l’espace urbain.Les sédiments des voies d’eau sont un enjeu majeur en Europe, et particulièrement dans la région transfrontalière Belgique Wallonie – Nord de la France pour plusieurs raisons, toutes liées à la densité de l’habitat, du tissu industriel passé et présent, et du réseau de voies d’eau. Non seulement les sédiments affectent la navigabilité, mais aussi la qualité des ressources en eau, par la pollution, et la gestion des inondations. Le curage régulier des sédiments permet le développement d’un transport régional fluvial éco-favorable, mais génère d’importants volumes de déchets potentiels. La réutilisation des sédiments pour la construction ou les infrastructures est donc un enjeu clé, en combinant réduction des déchets et des besoins en ressources naturelles pour le même usage.Afin de prendre en compte la problématique des sédiments fluviaux dans sa globalité, le projet GeDSeT va capitaliser l’état de l’art sur les critères pertinents pour une gestion durable, et les incorporer dans une méthodologie d’aide à la décision applicable au contexte transfrontalier. Cette méthodologie vise à développer des bonnes pratiques en harmonie avec la gestion des ressources en eau, et le développement du transport fluvial régional

Is phytoextraction a suitable green treatment for metal-contaminated sediments ?

International audienceThe cleaning of waterways by regular dredging generates great volumes of sediments and, owing to human activities, these sediments often contain large amounts of metals. These materials are usually spread on landfill sites. Phytoremediation could be a stategy for the reclamation of these polluted sediments. To our knowledge, phytoextraction with hyperaccumulating plants has been few tested on contaminated sediment. This work focuses on the mechanisms of Cd accumulation in Arabidopsis halleri, a Cd and Zn hyperaccumulator, and the effects of this species on a metal polluted sediment

Use of phytostabilisation to remediate metal polluted dredged sediment

International audiencePhytostabilisation (combined use of tolerant plants and soil amendments) experiments were conducted at the field scale on dredged sediments polluted with metals. A sediment deposit contaminated with metals and metalloids (Cd, Zn, Pb, Cu and As) was experimentally established in 2002 and monitored until 2004 as part of the European project PHYTODEC (5th Framework Program; EVK1-CT-1999-2004). Six out of nine plots were treated by adding amendments to immobilise metals (Thomas Basic Slags or Hydroxylapatite). Two grass species (Festuca rubra and Deschampsia cespitosa) were sown on six plots previously treated or not. The three unvegetated plots left were taken as controls. After two years of monitoring, the couple Thomas Basic Slags/D. cespitosa was the most efficient additive/plant couple for phytostabilisation purpose. In this 3 years project, we continue to work on the sediment deposit site previously described and propose to demonstrate the long-term sustainability of phytostabilisation by addressing the following points: (i) sustainability and maintenance of the vegetation cover and amendment action, (ii) reduction of metals mobility and bioavailability, (iii) study of metal mobilization and immobilization mechanisms related to specific bacterial microflora