Your search keyword '"Yan, Chen"' showing total 3 results

1. AMS study of the Pont-de-Montvert--Borne porphyritic granite pluton (French Massif Central) and its tectonic implications.

Author

Talbot, Jean-Yves, Yan Chen, Faure, Michel, and Wei Lin

Subjects

*ANISOTROPY, *MAGNETIC susceptibility, *PLATE tectonics

Abstract

Examines the evolution of anisotropy of magnetic susceptibility (AMS) and the tectonic implications of AMS in Massif Central, France. Occurrence of AMS orientations during pluton emplacement in the subsolidus phase; Role of granitic plutons as markers of the late stage of orogenic evolution; Importance of measuring the planar and linear mineral on the study of granite fabrics.

Published

2000

2. Chronic exposure of river sediments to environmentally relevant levels of tetracycline affects bacterial communities but not denitrification rates.

Author

Roose-Amsaleg C, Yan C, Hoang AM, and Laverman AM

Subjects

Denaturing Gradient Gel Electrophoresis, France, Geologic Sediments analysis, Microbial Sensitivity Tests, Polymerase Chain Reaction, RNA, Ribosomal, 16S analysis, Rivers microbiology, Tetracycline Resistance, Anti-Bacterial Agents toxicity, Bacteria drug effects, Denitrification drug effects, Geologic Sediments microbiology, Tetracycline toxicity, Water Pollutants, Chemical therapeutic use

Abstract

The effects of tetracycline (TC) at chronic sub-inhibitory exposure concentrations on benthic denitrification rates and bacterial communities were explored. River sediments were continuously exposed to different TC concentrations (0.5, 20 and 10,000 μg L(-1)) for 2 weeks in flow-through reactors allowing denitrification and bacterial growth conditions. Bacterial communities were fingerprinted by Denaturing Gradient Gel Electrophoresis of 16S rRNA gene amplification products. Cultivable denitrifiers enriched from the sediment were tested for TC resistance (2-128 mg L(-1)). Denitrification rates were unaffected by exposure to TC, regardless of concentration. In contrast, the bacterial community composition changed significantly from sub-inhibitory (ng-μg L(-1)) to therapeutic (mg L(-1)) exposure concentrations. Furthermore the cultivable denitrifiers showed a high TC sensitivity (<4 mg L(-1)). Maintenance of efficient benthic denitrification rates, even at the highest level of TC exposure most likely originated from an adaptation of the autochthonous bacterial community where dominant species become those that acquire, or already have resistance to antibiotics.

Published

2013

3. The effect of environmental and therapeutic concentrations of antibiotics on nitrate reduction rates in river sediment.

Author

Yan C, Dinh QT, Chevreuil M, Garnier J, Roose-Amsaleg C, Labadie P, and Laverman AM

Subjects

Anti-Bacterial Agents administration & dosage, Biodegradation, Environmental, Fluoroquinolones administration & dosage, Fluoroquinolones pharmacology, France, Nitrites metabolism, Oxidation-Reduction, Sulfamethoxazole administration & dosage, Sulfamethoxazole pharmacology, Vancomycin administration & dosage, Vancomycin pharmacology, Water Pollutants, Chemical administration & dosage, Water Pollutants, Chemical pharmacology, Anti-Bacterial Agents pharmacology, Geologic Sediments analysis, Geologic Sediments chemistry, Geologic Sediments microbiology, Nitrates metabolism, Rivers microbiology

Abstract

The use of antibiotics in both human and veterinary medicine has led to increased presence of these compounds and antibiotic resistance in the environment. In this study, the effect of low, environmentally relevant (mg L(-1)) concentrations of vancomycin (VA), flumequine (FLU), and sulfamethoxazole (SMX) on nitrate reduction rates was studied in river sediments. Nitrate reduction rates were determined by supplying intact sediments for several weeks with both nitrate and antibiotics (ng L(-1), μg L(-1), and mg L(-1) concentrations), including a non-amended control. Furthermore the concentrations of the three investigated antibiotics were measured in the initial (natural) sediments and the sediments supplied with the antibiotics. The antibiotic concentrations in the sediments decreased (on average 62% for FLU and 93% for SMX) during the experiments, indicating loss of antibiotics due to sorption or (bio) degradation. Nitrate reduction rates were not affected by environmental concentrations of VA, FLU and SMX. FLU and SMX only partially inhibited nitrate reduction rates at high, therapeutic concentrations by 41 and 39% respectively. The three tested antibiotics significantly enhanced the production of nitrite, an intermediate in dissimilatory nitrate reduction. Nitrite production increased 1.9 and 1.4 fold for environmental VA concentrations (107 and 187 μg L(-1) respectively), application of 58 mg L(-1) SMX resulted in a 7.5 fold increase and augmented 16 and 8.5 fold in the presence of respectively 13 μg L(-1) and 52 mg L(-1) FLU. Even though inhibition of nitrate reduction rates was observed at therapeutic antibiotic concentrations, nitrate reduction proceeded under all experimental conditions, indicating the presence of resistance toward these antibiotics among the nitrate reducing bacteria. The accumulation of nitrite suggests that the nitrite reduction step was more affected than the overall nitrate reduction process., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013