The effect of annealing temperature on the structure and optical properties of well-aligned 1D SnO<sub>2</sub>nanowires synthesized using template-assisted deposition

Fine and ultrafine metallic particulate matters (PMs) are emitted from metallurgic activities in peri-urban zones into the atmosphere and can be deposited in terrestrial ecosystems. The foliar transfer of metals and metalloids and their fate in plant leaves remain unclear, although this way of penetration may be a major contributor to the transfer of metals into plants. This study focused on the foliar uptake of various metals and metalloids from enriched PM (Cu, Zn, Cd, Sn, Sb, As, and especially lead (Pb)) resulting from the emissions of a battery-recycling factory. Metal and metalloid foliar uptake by various vegetable species, exhibiting different morphologies, use (food or fodder) and life-cycle (lettuce, parsley and rye-grass) were studied. The mechanisms involved in foliar metal transfer from atmospheric particulate matter fallout, using lead (Pb) as a model element was also investigated. Several complementary techniques (micro-X-ray fluorescence, scanning electron microscopy coupled with energy dispersive X-ray microanalysis and time-of-flight secondary ion mass spectrometry) were used to investigate the localization and the speciation of lead in their edible parts, i.e. leaves. The results showed lead-enriched PM on the surface of plant leaves. Biogeochemical transformations occurred on the leaf surfaces with the formation of lead secondary species (PbCO(3) and organic Pb). Some compounds were internalized in their primary form (PbSO(4)) underneath an organic layer. Internalization through the cuticle or penetration through stomata openings are proposed as two major mechanisms involved in foliar uptake of particulate matter.

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Metal ions speciation in a soil and its solution: experimental data and model results

Cancès

et al. 2003

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A Compilation of Silicon and Thirty One Trace Elements Measured in the Natural River Water Reference Material SLRS‐4 (NRC‐CNRC)

Yeghicheyan¹,

Carignan²,

Valladon³

et al. 2001

Geostandards Newsletter

114

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The natural river water certified reference material SLRS‐4 (NRC‐CNRC, National Research Council‐Conseil National de Recherches Canada) has been routinely analysed for major and trace elements by six French laboratories. Most measurements were made using inductively coupled plasma‐mass spectrometry. For silicon and thirty one trace elements (rare earth elements, Ag, B, Br, Cs, Ga, Ge, Li, P, Pd, Rb, Se, Th, Ti, Tl, W, Y and Zr), no certified values are assigned by NRC‐CNRC. We propose some compilation values and related uncertainties according to the results obtained by the different laboratories.

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Trinidad mud volcanoes: where do the expelled fluids come from?

Dia

Castrec‐Rouelle

Boulègue

et al. 1999

Geochimica et Cosmochimica Acta

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Maryse Castrec‐Rouelle

Metal and metalloid foliar uptake by various plant species exposed to atmospheric industrial fallout: Mechanisms involved for lead

Metal ions speciation in a soil and its solution: experimental data and model results

A Compilation of Silicon and Thirty One Trace Elements Measured in the Natural River Water Reference Material SLRS‐4 (NRC‐CNRC)

Trinidad mud volcanoes: where do the expelled fluids come from?

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