Your search keyword '"Bromouracil analysis"' showing total 7 results

1. Modelling the dissipation kinetics of six commonly used pesticides in two contrasting soils of New Zealand.

Author

Sarmah AK and Close ME

Subjects

Adsorption, Atrazine analysis, Biodegradation, Environmental, Bridged Bicyclo Compounds analysis, Bromouracil analogs & derivatives, Bromouracil analysis, Diazinon analysis, Kinetics, New Zealand, Nonlinear Dynamics, Soil Pollutants chemistry, Soil Pollutants metabolism, Triazines analysis, Environmental Monitoring, Pesticides analysis, Soil analysis, Soil Pollutants analysis

Abstract

We used three non-linear bi-phasic models, bi-exponential (BEXP), first-order double exponential decay (FODED), and first-order two-compartment (FOTC), to fit the measured degradation data for six commonly used pesticides (atrazine, terbuthylazine, bromacil, diazinon, hexazinone and procymidone) in two New Zealand soils. Corresponding DT(50) and DT(90) values for each compound were numerically obtained and compared against those estimated by simple first-order kinetic (SFOK) model. All 3 non-linear models gave good fit of the measured data under both soil depths and were well supported by the values obtained for the respective statistical indices (RMSE, CRM and r(2)). The FOTC model gave by far the best fit for most compounds, followed by the FODED and BEXP models. Overall, DT(50) values derived by non-linear models for the six compounds in soils from both sites were lower than the values obtained by the SFOK model. Differences in the SFOK and the three non-linear models derived DT(90)were, however, an order of magnitude higher for some compounds, while for others differences were very small. Although all three non-linear models described most data by giving excellent fits, in a few instances > 5-10% asymptotes hindered the estimation of DT(90) values. This work shows that when degradation deviates from first-order kinetic, application of non-linear decay models to describe the kinetics of degradation becomes important in order to derive the true end-points for pesticides in soil.

Published

2009

2. Determination of selected herbicides and phenols in water and soils by solid-phase extraction and high-performance liquid chromatography.

Author

Baranowska I and Pieszko C

Subjects

Adsorption, Atrazine analysis, Bromouracil analogs & derivatives, Bromouracil analysis, Chlorophenols analysis, Simazine analysis, Triazines analysis, Chromatography, High Pressure Liquid methods, Environmental Pollutants analysis, Herbicides analysis, Phenols analysis, Soil analysis, Water chemistry

Abstract

A high-performance liquid chromatography procedure or the determination of the herbicides simazine, propazine, bromacil, metoxuron, and hexazinone is elaborated. Stationary phases RP8 and RP18 and mixtures of methanol-water (2:1 and 1:1, v/v) as a mobile phase are applied for this purpose. The conditions for solid-phase extraction are established, allowing the separation of phenols and herbicides in their mixtures and the extraction of phenols (from river and coke plant water) and herbicides (from the soil samples).

Published

2000

3. Sorption and leaching of bromacil and simazine in Florida flatwoods soils.

Author

Reddy KN, Singh M, and Alva AK

Subjects

Bromouracil analysis, Bromouracil chemistry, Florida, Herbicides analysis, Kinetics, Simazine analysis, Bromouracil analogs & derivatives, Herbicides chemistry, Simazine chemistry, Soil analysis

Published

1992

4. Sorption of bromacil, diuron, norflurazon, and simazine at various horizons in two soils.

Author

Alva AK and Singh M

Subjects

Adsorption, Bromouracil analysis, Hydrogen-Ion Concentration, Silicon Dioxide analysis, Bromouracil analogs & derivatives, Diuron analysis, Herbicides analysis, Pyridazines analysis, Simazine analysis, Soil analysis

Published

1990

5. Soil and water contamination at pesticide mixing and loading sites on Oahu, Hawaii.

Author

Miles CJ, Yanagihara K, Ogata S, Van De Verg G, and Boesch R

Subjects

Bromouracil analogs & derivatives, Bromouracil analysis, Chromatography, Gas methods, DDT analysis, Dichlorodiphenyl Dichloroethylene analysis, Dichlorodiphenyldichloroethane analysis, Diuron analysis, Herbicides analysis, Industry, Triazines analysis, Pesticides analysis, Soil analysis, Water Pollution analysis

Published

1990

6. Bromacil and diuron residue levels in Florida citrus soils.

Author

Tucker DP

Subjects

Bromouracil analysis, Citrus, Florida, Bromouracil analogs & derivatives, Diuron analysis, Herbicides analysis, Pesticide Residues analysis, Soil analysis

Abstract

The widespread use of herbicides in Florida citrus groves raises the possibility of residue accumulation following repeated applications. To determine residue levels of commonly used herbicides, soil samples were taken from large experimental plots in commercial groves in Polk and Hardee Counties. Bromacil and diuron had been applied in combination at both locations for 7-8 years. Analyses of samples showed low levels of both herbicides at various soil depths to 60 cm. Only a small amount of bromacil was detectable one year after applications, but diuron levels were higher. Continuous applications at recommended rates and frequencies have resulted in maximum bromacil and diuron levels of 3.9 percent and 13.1 percent, respectively, of their total application.

Published

1978

7. Movement of bromacil and norflurazon in a sandy soil in Florida.

Author

Singh M, Castle WS, and Achhireddy NR

Subjects

Bromouracil analysis, Solubility, Time Factors, Bromouracil analogs & derivatives, Herbicides analysis, Pyridazines analysis, Soil analysis

Published

1985