نبذة مختصرة : Since the Industrial Revolution in Europe (XIXe century), human activities have caused significant global environmental changes. The composition of the atmosphere in particular, has been extensively modified by the emission of gaseous and particulate pollutants. Currently, the secondary (or recycling) metallurgical industry contributes significantly to air emissions of metals. Therefore, this thesis focused on the study of transfers and impacts on soils, plants and humans, of particles from the recycling process of lead in relation to their physicochemical properties. Three main sources of particulate emissions have been identified in the process of recycling lead and characterized, to study the potential impacts on plant and human targets. The particles sampled (workstations and channelled emissions), and segregated according to their size (PMtot, PM10 and PM2, 5), are mainly composed of metals (up to 50% by weight of the total composition in transition metals alkaline and alkaline), with a major part of lead (25-45%). The major speciations of lead are galena (PbS), lead sulfate (PbSO4) or derivatives (xPbO.PbSO4 x = 1,2 or 3). The study of transfer of particles in the soil-plant system has shown that when the particle size of processes in the soil decreases (from 2.5µm to 10µm), the transfer of lead into the aerial parts of lettuce growing at 20 %. The uptake of lead from particles process by leaves has been demonstrated and mechanisms of absorption have been proposed. Finally, exploratory study of lead-rich particles on human health has shown that diminution of the size of particles ingested increased gastric bioaccessibility of lead. In the case of inhalation, it was shown that the particles did not induce cytotoxicity up 50µg/cm2, but caused a dose-dependent inflammatory response of lung epithelial cells ; Depuis la révolution industrielle en Europe (XIXe siècle), les nombreuses activités anthropiques ont provoqué des changements environnementaux globaux considérables. La composition de l'atmosphère ...
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