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Title: Determination of transfer rate and nature of the residue(s) in milk from {sup 14}C-atrazine cows

Abstract

In order to determine the rate of transfer and the nature of the atrazine residues present in milk, lactating dairy cattle were treated with atrazine at three concentrations, 0.764 ppm, 0.0747 ppm and 0.0085 ppm (dry weight of food consumed). The concentrations were selected to bridge the gap between the concentration used for EPA metabolism studies (10 ppm) and the potential exposure level of dairy cattle to atrazine and its chlorotriazine metabolites through feed. The cattle were dosed following the morning milking for nine consecutive days with a single capsule bolus of {sup 14}C-atrazine. Milk was collected twice daily and aliquots of each milking and the individual cow`s daily pool of milk were analyzed by liquid scinitllation counting (LSC). The concentrations of {sup 14}C-residues in the milk plateaued on approximately day 3 and the mean {sup 14}C-atrazine levels in milk were 11.2 ppb, 1.13 ppb and 0.152 ppb for the high, middle and low dosed animals, respectively. The transfer of radioactive level of exposure to {sup 14}C-atrazine. The nature of the residues in milk were determined by extracting milk samples and analysis by HPLC, TLC or Aminex chromatography. Diaminchlorotriazine was the only chlorinated metabolite in the milk, constituting approximately 65%more » to 75% of the total radioactive residues (TRR).« less

Authors:
;  [1];  [2]
  1. Corning Hazleton, Inc., Madison, WI (United States)
  2. Ciba-Geigy Corp., Greensboro, NC (United States)
Publication Date:
OSTI Identifier:
369969
Report Number(s):
CONF-960376-
TRN: 96:003805-0016
Resource Type:
Conference
Resource Relation:
Conference: Spring national meeting of the American Chemical Society (ACS), New Orleans, LA (United States), 24-28 Mar 1996; Other Information: PBD: 1996; Related Information: Is Part Of 211th ACS national meeting; PB: 2284 p.
Country of Publication:
United States
Language:
English
Subject:
55 BIOLOGY AND MEDICINE, BASIC STUDIES; MILK; RADIOACTIVITY; ORGANIC CHLORINE COMPOUNDS; METABOLISM; TRACER TECHNIQUES; LABELLED COMPOUNDS; CARBON 14; CATTLE; METABOLITES; RESIDUES

Citation Formats

Thalacker, F.W., Ash, S.G., and Simoneaux, B.J. Determination of transfer rate and nature of the residue(s) in milk from {sup 14}C-atrazine cows. United States: N. p., 1996. Web.
Thalacker, F.W., Ash, S.G., & Simoneaux, B.J. Determination of transfer rate and nature of the residue(s) in milk from {sup 14}C-atrazine cows. United States.
Thalacker, F.W., Ash, S.G., and Simoneaux, B.J. Tue . "Determination of transfer rate and nature of the residue(s) in milk from {sup 14}C-atrazine cows". United States. doi:.
@article{osti_369969,
title = {Determination of transfer rate and nature of the residue(s) in milk from {sup 14}C-atrazine cows},
author = {Thalacker, F.W. and Ash, S.G. and Simoneaux, B.J.},
abstractNote = {In order to determine the rate of transfer and the nature of the atrazine residues present in milk, lactating dairy cattle were treated with atrazine at three concentrations, 0.764 ppm, 0.0747 ppm and 0.0085 ppm (dry weight of food consumed). The concentrations were selected to bridge the gap between the concentration used for EPA metabolism studies (10 ppm) and the potential exposure level of dairy cattle to atrazine and its chlorotriazine metabolites through feed. The cattle were dosed following the morning milking for nine consecutive days with a single capsule bolus of {sup 14}C-atrazine. Milk was collected twice daily and aliquots of each milking and the individual cow`s daily pool of milk were analyzed by liquid scinitllation counting (LSC). The concentrations of {sup 14}C-residues in the milk plateaued on approximately day 3 and the mean {sup 14}C-atrazine levels in milk were 11.2 ppb, 1.13 ppb and 0.152 ppb for the high, middle and low dosed animals, respectively. The transfer of radioactive level of exposure to {sup 14}C-atrazine. The nature of the residues in milk were determined by extracting milk samples and analysis by HPLC, TLC or Aminex chromatography. Diaminchlorotriazine was the only chlorinated metabolite in the milk, constituting approximately 65% to 75% of the total radioactive residues (TRR).},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {Tue Oct 01 00:00:00 EDT 1996},
month = {Tue Oct 01 00:00:00 EDT 1996}
}

Conference:
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  • Following the Chernobyl accident in April 1986, the transfer of {sup 131}I and {sup 137}Cs from feed to milk was studied under experimental and common agricultural conditions. From measurements in different dairy farms in Southern Bavaria, equilibrium transfer coefficients for cow's milk were calculated to be 0.003 d L-1 (range 0.0015 to 0.005) for {sup 131}I and 0.003 d L-1 (range 0.0025 to 0.004) for {sup 137}Cs. In feeding experiments with cows and sheep under more controlled conditions, milk transfer coefficients of 0.007 d L-1 (range 0.0055 to 0.0081) for {sup 131}I and 0.003 d L-1 (range 0.0023 to 0.0053)more » for {sup 137}Cs were obtained for cows, while for sheep the {sup 137}Cs transfer coefficient was higher: 0.06 d L-1. The kinetics of the Cs transfer from fodder to cow's milk can be described by two exponential terms assuming biological half-lives in milk of 1-2 d and 10-20 d. The use of a fast component with 1.5 d and a fraction of 0.8, and a slow component with 15 d, gives a good approximation to the kinetics for all cows in this experiment.« less
  • Sugarcane and sorghum plants were grown in separate field plots and treated with [2,4,6-{sup 14}C]-Atrazine (according to standard agricultural practices and at levels approximating the maximum usage rate) in partial fulfillment of EPA registration requirements. Sugarcane leaves were collected just before the final (fourth) test material application and at final harvest; canes were collected only at final harvest. Atrazine and a total of 20 metabolites of atrazine, accounting for 45.1% of the total radioactive residues, were isolated and characterized from prefourth application sugarcane leaves. Sorghum forage samples were collected 30 days after treatment (30 DAT), and at silage stage; maturemore » fodder and grain were collected at final harvest. Two additional metabolites of atrazine were isolated and characterized from 30 DAT sorghum. Flowcharts describing the extraction and fractionation procedures used for isolation and purification of selected metabolites will be presented. The mass spectra as well as proposed metabolic pathways for these metabolites will be presented in an accompanying abstract.« less
  • Radioactive residue levels were determined in milk and plasma of Holstein cows dosed once with an oral suspension of {sup 14}C-labeled clorsulon at 7 mg/kg of body weight. Average milk residue levels decreased from 0.54 ppm at 0.9 day postdose to 0.004 ppm at 6.9 days postdose with a half-life of 0.81 day. The drug residue was isolated by a batch adsorption method on an affinity agarose gel of carbonic anhydrase-Sepharose 4B and analyzed by HPCL-reverse isotope dilution assay (RIDA). This novel method greatly simplified the extraction of drug residue from milk and provided pure drug residue isolates. RIDA resultsmore » of the isolates indicated that the unchanged drug was the major residue component in milk at 0-4 days postdose accounting for 56-99% of the total radioactive residue. Depletion half-life of the parent drug was 0.82 day, in close agreement with that of the total residue in milk. About 0.7% of the dose was recovered in the milk during the 6.9-day period.« less
  • A experiment was conducted to study kinetics, transfer coefficients, and biological half-lives of {sup 90}Sr, {sup 134}Cs, and {sup 137}Cs from feed to milk. A cow was fed a diet containing alfalfa hay contaminated by Chernobyl fallout for 14.5 wk. The time-dependent activity in milk was approximated by a two-compartment model with fast biological half-lives of 2, 0.9, and 1 d and slow biological half-lives of 36.9, 8.7, and 12.4 d for {sup 90}Sr, {sup 134}Cs, and {sup 137}Cs respectively. The transfer coefficients determined in the experiment were 0.0008 d L{sup -1} for {sup 90}Sr, 0.0029 d L{sup -1} formore » {sup 137}Cs, and 0.0031 d L{sup -1} for {sup 137}Cs. The biological elimination phases of {sup 134}Cs and {sup 137}Cs were described by a two-compartment model while a one-compartment model was proposed for {sup 90}Sr. 18 refs., 4 figs., 2 tabs.« less