Mercury methylation along a lake-forest transect in the Tapajos river floodplain, Brazilian Amazon: seasonal and vertical variations

Details

Serval ID
serval:BIB_4ACEE1A11EE0
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Mercury methylation along a lake-forest transect in the Tapajos river floodplain, Brazilian Amazon: seasonal and vertical variations
Journal
Science of the Total Environment
Author(s)
Guimaraes  J. R., Roulet  M., Lucotte  M., Mergler  D.
ISSN
0048-9697 (Print)
Publication state
Published
Issued date
10/2000
Volume
261
Number
1-3
Pages
91-8
Notes
Journal Article
Research Support, Non-U.S. Gov't --- Old month value: Oct 16
Abstract
The seasonal and spatial variations of net methylmercury production in sediments, soils and other sites were evaluated by assays with 203Hg at different depths and locations along a lake-forest transect at lake Enseada Grande, Tapajos river. Soil and sediment samples were taken at the surface and at different depths up to 9 cm. Fresh samples and acidified controls (1-3 g dry wt.) were slurried with local water and incubated in the dark at 25-28 degrees C for 3 days with 0.5-1.6 microg Hg g(-1) (dry wt.) added as 203HgCl2. CH3 203Hg was extracted and measured in scintillation cocktail after acid leaching. Methylmercury production varied by orders of magnitude among sites and among sediment or soil layers. Seasonal variations were smaller than those with sample depth and location. In both seasons, MeHg formation in sediment and soil or flooded soil decreased with depth and was, in the top layers, one order of magnitude higher in the C-rich littoral macrophyte zone (2.3-8.9%) and flooded forest (3.2-4.5%) than in the center of the lake (0.2-0.56%). Similar MeHg production was found in slurried dry soils (dry season) and in soils already flooded for months. In the macrophyte zone soil (dry season), methylation was mainly associated with the thin Paspalum sp. rootlet layer. In the forest site, vertical variation in methylation was less pronounced in flooded than in dry soils and during the inundation the higher methylation rate was found in the flocculent sediment settled over the litter layer. The roots of floating Paspalum sp. were an important Hg methylation site, particularly those heavily colonized with periphyton (3.4-5.4%). Methylation in surface or near-bottom water was undetectable (< 3 x 10(-2)%) at all sites. Flooded forests and macrophyte mats are specific features of the Amazon and are important links between Hg inputs from natural and manmade sources and MeHg exposure of local populations through fish intake.
Keywords
Brazil Ecosystem Geologic Sediments/*chemistry Mercury/*metabolism Methylation Methylmercury Compounds/analysis/*pharmacokinetics Natural Disasters Plants/chemistry Seasons Water Pollutants, Chemical/analysis/*pharmacokinetics
Pubmed
Web of science
Create date
24/01/2008 20:33
Last modification date
20/08/2019 13:58
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