Thomas Cantens Unité recherche Conférence sur les recettes OMD 2014
Unité de recherche REBX Bordeaux, FRANCE
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Transcript of Unité de recherche REBX Bordeaux, FRANCE
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Dissipation of polar xenobiotics from Dissipation of polar xenobiotics from
pharmaceutical POCIS and suggestion of a pharmaceutical POCIS and suggestion of a
performance reference compoundperformance reference compound
N. Mazzella, T. Debenest, J. Grange, C. Madigou, F. Delmas
Unité de recherche REBXBordeaux, FRANCE
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Evaluation of the water quality and its consequences on river biological organisms (WFD)
Effects of pesticides and metabolites on diatom communities
Time-weighted average concentration estimates :
Classical grab sampling Representative ?
Automated/extensive sampling Time-consuming and expensive
Passive sampling Validity of quantitative results ?
IntroductionIntroduction 2
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IntroductionIntroduction
CPOCIS
Cwater
Cf (t) =ke
ku (1-e-ket)=
Equilibrium regime
Cf =ke
ku= KKswsw
ku >> ke
Linear uptake regime
Cf (t) = ku x t
Assumption of linear isotherms and isotropic exchanges
time
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1.1. MethodologiesMethodologies
Analytical techniques and analyte recoveries
Aim and objectivesAim and objectives
2.2. Calibration of pharmaceutical POCIS Calibration of pharmaceutical POCIS
Determination of ku and Rs
3.3. Study of analyte elimination ratesStudy of analyte elimination rates
Suggestion of a potential PRC
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MethodologiesMethodologies
Polyethersulfone membranes
Sorbent
Compression holder washers
Analyte recoveriesAnalyte recoveries
Columns packed with sorbents
Elution with MeOH
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Herbicides analyzedHerbicides analyzed
Large polarity range : -1.7 (Nicosulfuron) ≤ Log Kow ≤ 5.07 (trifluraline)
Different classes : Triazines, Phenylureas, Sulfonylureas, Diphenyl
ethers, Chloroacetanilides, Dinitroanilines, Benzonitriles, Triketones
Triazines and Phenylureas metabolites
Analytical methodAnalytical method
2 multiresidue methods :
HPLC-DAD technique
Reverse phase (ODS 2) and weakly anion-exchanger (polyamine) columns
MethodologiesMethodologies 6
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Analysis with an ODS 2 columnAnalysis with an ODS 2 column
Separation of 16 neutral Separation of 16 neutral or basic herbicidesor basic herbicides
MethodologiesMethodologies 7
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Analysis with a polyamine columnAnalysis with a polyamine column
Acidic herbicidesAcidic herbicides
Log Kow ≤ 0 for Mesotrione Sulcotrione Nicosulfuron
MethodologiesMethodologies 8
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Constant temperature (17±1° C) and obscurity
Large volume (80 L)
Turbulent conditions : constant flow velocity 2-3 cm.s-1
Microcosm experimental designMicrocosm experimental design
MethodologiesMethodologies 9
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Calibration of POCISCalibration of POCIS
CPOCIS
Cwater
t
1. Linearity and kinetic regimes1. Linearity and kinetic regimes
2. Sampling rates Rs2. Sampling rates Rs
Constant temperature and flow velocity, obscurity
Tap water
Constant concentrations over 21 days of exposure
Duplicate analyses
Microcosm experimentMicrocosm experiment
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0
5
10
15
20
25
30
0 5 10 15 20
Diuron
Isoproturon
DCPMU
IPPMU
0.974 r 0.998
Days
Cf (L.g-1)
Calibration of POCISCalibration of POCIS 11
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log KOW
-1.7
3.03
5.18 Pendimethalin
Sampling rates over 21 daysSampling rates over 21 days
Herbicides ku (mL g-1 d-1) Rs (mL d-1) % RSDLinearity over 21
days
Nicosulfuron 219 43.9 3.5 0.910
Sulcotrione 146 29.3 23.8 0.806
Mesotrione 104 20.8 13.0 0.391
Ioxynil 884 176.8 6.2 0.971
DIA 318 63.6 16.5 0.326
DEA 608 121.5 16.5 0.786
Metoxuron 989 197.7 2.4 0.950
Simazine 1051 210.3 0.6 0.955
DET 1025 205.0 2.7 0.974
IPPMU 1135 226.9 3.4 0.981
DCPMU 1334 266.9 3.4 0.998
Atrazine 1195 239.0 3.4 0.985
Isoproturon 1088 217.6 4.7 0.977
Diuron 1236 247.3 0.1 0.998
Terbuthylazine 1253 250.7 3.8 0.994
Linuron 1179 235.9 0.4 0.996
Acetochlor 1126 225.2 7.2 0.989
Calibration of POCISCalibration of POCIS 12
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0
5
10
15
20
25
0 5 10 15 20
DIA
DEA
Atrazine
Days
Cf (L.g-1)
r=0.985
r=0.326r=0.786
Calibration of POCISCalibration of POCIS
Sorbent saturation or isotropic exchanges ?
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Linear uptakes of 16 herbicides for 21 days
Curvilinear uptakes of DIA and 3 other polar herbicides :
Partial conclusionPartial conclusion
Calibration of POCISCalibration of POCIS
Assumption of isotropic exchanges for DIA
Estimation of the elimination rate constant
Use of DIA as PRC ?
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Suggestion of a PRCSuggestion of a PRC
CPOCIS x MPOCIS
Rs x tCw =
Rs depends on : Temperature
Turbulence
Biofouling
Rsin situ= (kein situ/kecal) x Rscal
kePRC=ln(CPRC0/CPRC)/t kuKSW =
ke
Performance Reference CompoundPerformance Reference Compound
CPRC/CPRC0
t
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0
0,2
0,4
0,6
0,8
1
0 5 10
Dissipation of DIA and simazine from pharmaceutical POCISDissipation of DIA and simazine from pharmaceutical POCIS
Simazine
DIA
Elimination rate constant estimates :
ke= 0.047 ± 0.005 d-1 (dissipation) and ke= 0.08 ± 0.02 d-1 (uptake)
C/C0
Days
Suggestion of a PRCSuggestion of a PRC
Isotropic exchanges might exist for DIA
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Turbulent flow (20-50 cm.s-1)
River water (biofouling effects)
9-day exposure
Correction of TWA concentrations (PRC)
Microcosm experimentMicrocosm experiment
Suggestion of a PRCSuggestion of a PRC 17
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0
1
2
3
4
3 6 9
Days
µg.L-1
TerbuthylazineTerbuthylazine
Average concentration
0
5
10
15
20
3 6 9
Days
µg.L-1
« Peak » concentration
POCIS
POCIS (PRC)
The « peak » concentration
was integrated during 9 days
Suggestion of a PRCSuggestion of a PRC 18
+ 30 %
+ 25 %
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0
5
10
15
20
25
3 6 9
Days
µg.L-1
« Peak » concentration
0
1
2
3
4
5
3 6 9
Days
µg.L-1
Average concentration
POCIS
POCIS (PRC)
DeethylterbuthylazineDeethylterbuthylazine
DET (log Kow=1.98)
Terbuthylazine (log Kow=3.21)
Suggestion of a PRCSuggestion of a PRC 19
+ 25 %
+ 11 %
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Conclusions and further studiesConclusions and further studies
Isotropic exchanges for DIA (first-order monophasic kinetic)
« Peak » concentrations are integrated for the 2 test chemicals
Correction of TWA concentration estimates for 9 days
Desorption of DIA and other herbicides for 28 days
(biphasic kinetics)
Correction of TWA concentrations for 21-28 days
In situ validation with one or several PRCs
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Thank you for your attention !Thank you for your attention !
Unité de recherche REBXBordeaux, FRANCE