Your search keyword '"Gouteux, B."' showing total 5 results

1. Sorption behaviors of a persistent toxaphene congener on marine sediments under different physicochemical conditions.

Author

Soubaneh YD, Gagné JP, Lebeuf M, Gouteux B, Nikiforov V, and Awaleh MO

Subjects

Adsorption, Carbon chemistry, Salinity, Temperature, Geologic Sediments analysis, Insecticides isolation & purification, Toxaphene isolation & purification, Water Pollutants, Chemical isolation & purification

Abstract

Sorptive processes are important parameters affecting the mobility, availability and fate of persistent organic pollutants (POPs), such as toxaphene, in aquatic systems. The sorption and desorption behaviors of the B7-1450, a stable toxaphene congener in environment, on marine sediment was studied under different temperature and salinity conditions to better understand the B-1450 distribution in estuarine systems. The data were fitted to different sorption models to characterize sorption behaviors by evaluating sorption coefficients and sequestrated fraction of B7-1450 on sediments. High carbon-normalized sorption coefficients (Koc) of the B7-1450 were observed with values ranging from 3.2×104 to 6.0×104 mL g(-1) under experimental conditions. The data showed an increase of B7-1450 sorption coefficients with the salinity and a decrease with temperature. These investigations indicate that B7-1450 is three times more sequestred on sediments in cold (2°C, 30 psu) than in warm marine conditions (20°C, 30 psu). These results suggest that the mobility and bioavailable of B7-1450 or other POPs from the sediments could be less important in cold marine comparatively in warm marine and warm freshwater media. As a result of climate changes, the warming of mid and high latitudes coastal waters could enhance the mobility of POPs., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

2. Toxaphene in minke whales (Balaenoptera acutorostrata) from the North Atlantic.

Author

Gouteux B, Muir DC, Backus S, Born EW, Dietz R, Haug T, Metcalfe T, Metcalfe C, and Øien N

Subjects

Animals, Atlantic Ocean, Environmental Monitoring methods, Female, Male, North Sea, Adipose Tissue chemistry, Insecticides analysis, Minke Whale metabolism, Toxaphene analysis, Water Pollutants, Chemical analysis

Abstract

Toxaphene contamination of minke whales (Balaenoptera acutorostrata) from North Atlantic waters was examined for the first time. Total toxaphene and SigmaCHB (sum of 11 chlorobornanes) concentrations in blubber samples ranged from 170+/-110 and 41+/-39 ng/g lipid weight (l.w.) for female minke whales from southeastern Greenland to 5800+/-4100 and 1100+/-780 ng/g l.w. for males from the North Sea, respectively. Very large variations in toxaphene concentrations among sampling areas were observed suggesting a spatial segregation of minke whales. However, much of the apparent geographical discrimination was explained by the seasonal fluctuation of animal fat mass. Patterns of CHBs in males revealed that recalcitrant CHBs were in higher proportions in animals from the more easterly areas than in animals from the more westerly areas. This trend may be influenced by the predominance of the US, over the European, input of toxaphene to North Atlantic waters.

Published

2008

3. Comparison of toxaphene congeners levels in five seal species from eastern Canada: what is the importance of biological factors?

Author

Gouteux B, Lebeuf M, Hammill MO, Muir DC, and Gagné JP

Subjects

Adipose Tissue, Animals, Arctic Regions, Canada, Environmental Monitoring, Tissue Distribution, Insecticides analysis, Seals, Earless, Toxaphene analogs & derivatives, Toxaphene analysis

Abstract

Environmentally relevant chlorobornanes (CHBs) were measured in blubber samples of harbor (Phoca vitulina), gray (Halichoerus grypus), harp (Phoca groenlandica), and hooded seals (Cystophora cristata) sampled in different part of the St. Lawrence marine ecosystem (SLME) and ringed seals (Phoca hispida) sampled in the eastern Canadian Arctic waters. The purpose of this study was to compare the levels of six CHBs (Parlar-26, -40/-41, -44, -50, and -62) among the five seal species. Seal species could be separated into three groups based on their respective sigmaCHB mean concentrations (+/-standard error): gray (49+/-3.9 ng/g lipid weight) and harbor (80+/-20 ng/g lipid weight) seals were more contaminated than ringed seals (18+/-7.6 ng/g lipid weight) but less contaminated than harp (370+/-87 ng/g lipid weight) and hooded (680+/-310 ng/g lipid weight) seals. These differences are not expected to be related to different sources of toxaphene contamination, since both the SLME and the eastern Canadian Arctic environments are thought to be mainly contaminated via atmospheric transportfrom the southeastern part of the United States. Thus, biological factors such as sex, age, nutritive condition, metabolism capacity, and diet of the animals collected were considered. Results reported in this study indicated that the diet is likely the main factor accounting for interspecies variations in toxaphene contamination in seals from eastern Canada.

Published

2005

4. Levels and temporal trends of toxaphene congeners in beluga whales (Delphinapterus leucas) from the St. Lawrence Estuary, Canada.

Author

Gouteux B, Lebeuf M, Muir DC, and Gagné JP

Subjects

Adipose Tissue chemistry, Animals, Canada, Environmental Monitoring, Female, Insecticides metabolism, Male, Time Factors, Toxaphene metabolism, Water Pollutants, Chemical metabolism, Insecticides analysis, Insecticides pharmacokinetics, Toxaphene analysis, Toxaphene pharmacokinetics, Water Pollutants, Chemical analysis, Water Pollutants, Chemical pharmacokinetics, Whales

Abstract

Environmentally relevant toxaphene congeners were determined in blubber samples of stranded beluga whales (Delphinapterus leucas) from the St. Lawrence Estuary (SLE), Canada. The purpose of this study was to evaluate the levels and the temporal trends (1988-1999) of a suite of six chlorobornanes (P26, P40/41, P44, P50, and P62) in the SLE belugas. P26 and P50 mean concentrations were in the same range as those reported for animals living in the Arctic environment suggesting that the atmospheric transport represents the main input of toxaphene to the SLE. A general exponential decline of chlorobornane concentrations in belugas was observed, except for P26 and P50 in males. On average, concentrations decreased by a factor of two in 8.5 years during the 1988-1999 time period. This rate of decline is similar to the reduction of toxaphene emission from agricultural soils in the southern United States reported over the same time period. Some differences in decline rates were observed among the studied CHB congeners. For instance, P62 decreased more rapidly than P26 and P50 in both male and female belugas. Several hypotheses were advanced to explain these differences such as selective metabolism of specific chlorobornanes by SLE belugas or their prey. However, a most likely explanation is the selective degradation of the technical product in soils and atmosphere in the source region.

Published

2003

5. Analysis of six relevant toxaphene congeners in biological samples using ion trap MS/MS.

Author

Gouteux B, Lebeuf M, Trottier S, and Gagné JP

Subjects

Chlorine Compounds analysis, Environmental Monitoring, Mass Spectrometry, Reference Values, Sensitivity and Specificity, Toxaphene analogs & derivatives, Camphanes analysis, Insecticides analysis, Toxaphene analysis

Abstract

The quantification of six polychlorinated bornanes (CHBs) was studied using ion trap MS/MS. The significance of the selection of parent ions (Ip) and daughter ions (Id) on the detection of these toxaphene congeners was assessed in standard solution and biological samples. Our results indicate that different Ip and Id, selected at either low or high mass-to-charge (m/z) ratios, influence drastically the response factor of the CHBs and the chemical noise observed. For the octachlorinated toxaphene congeners (Parlar-26 (P-26), Parlar-40/41 (P-40/41), Parlar-44 (P-44)), the detection performance of the ion trap MS/MS is similar whether Ip and Id were chosen at low or high m/z ratios. However, the selection of Ip and Id at high m/z ratios clearly enhances the detection of the nonachlorinated toxaphene congeners (Parlar-50 (P-50), Parlar-62 (P-62)). The improved method, which selects Ip and Id at low m/z ratios for P-26, P-40/41 and P-44 and at high m/z ratios for P-50 and P-62, permitted to obtain low detection limits as well as repeatable and accurate results.

Published

2002