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TM METHODS IN BIOTECHNOLOGY � 19
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M E T H O D S I N B I O T E C H N O
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© 2006 Humana Press Inc. 999 River
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vi Preface candidates for a relevan
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viii Contents 9 Analysis of Pentach
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x Contents 30 On-Line Admicelle-Bas
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xii Contributors JANE C. CHUANG •
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xiv Contributors JOHN PATSIAS • A
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4 Martínez Vidal et al. excellent
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6 Martínez Vidal et al. Table 1 MS
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8 Martínez Vidal et al. 7. Check t
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F2 10 Martínez Vidal et al. where
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12 Martínez Vidal et al. 11. Inter
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14 Martínez Vidal et al. 11. Kohlm
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Pyrethroids in Blood Plasma and Uri
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19 Fig. 1. Metabolism of the pyreth
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Pyrethroids in Blood Plasma and Uri
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Pyrethroids in Blood Plasma and Uri
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Pyrethroids in Blood Plasma and Uri
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Pyrethroids in Blood Plasma and Uri
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Pyrethroids in Blood Plasma and Uri
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Pyrethroids in Blood Plasma and Uri
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Pyrethroids in Blood Plasma and Uri
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36 Barr et al. Because the metaboli
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38 Table 1 Pesticides Included in t
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40 Barr et al. 4. Spike the first p
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42 Table 3 High-Resolution Mass Spe
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44 Table 3 High-Resolution Mass Spe
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46 Barr et al. 4. Griffin, P., Maso
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OCPs in Human Fluids by SPDE and GC
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OCPs in Human Fluids by SPDE and GC
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OCPs in Human Fluids by SPDE and GC
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OCPs in Human Fluids by SPDE and GC
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OCPs in Human Fluids by SPDE and GC
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OCPs in Human Fluids by SPDE and GC
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62 Barr et al. exposures (2). For c
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64 Table 1 The Target Analytes, Abb
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66 Fig. 1. Structures of target ana
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68 Barr et al. Table 3 Pesticides a
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70 Barr et al. 3.2.3.2. NATIVE STAN
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72 Barr et al. 8. Inject each sampl
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74 Barr et al. Table 5 Optimized Pr
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76 Barr et al. 3.7.4. Intra- and In
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78 Barr et al. 11. Hill, R. H., Jr.
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80 Fustinoni et al. Fig. 1. Molecul
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82 Fustinoni et al. Develop the che
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84 Fustinoni et al. the ETU and ETU
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86 Fustinoni et al. 3.3. Biological
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88 Fustinoni et al. of pesticides s
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2,4-D and MCPA in Human Urine 91 7
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2,4-D and MCPA in Human Urine 93 4.
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2,4-D and MCPA in Human Urine 95 Ta
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2,4-D and MCPA in Human Urine 97 Ta
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2,4-D and MCPA in Human Urine 99 Ta
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2,4-D and MCPA in Human Urine 101 F
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2,4-D and MCPA in Human Urine 103 6
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106 Jardim, Pozzebon, and Queiroz S
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108 Jardim, Pozzebon, and Queiroz 3
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110 Jardim, Pozzebon, and Queiroz A
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112 Zhang been widely used to detec
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114 Zhang 3. Maintain the ion sourc
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116 Zhang Fig. 1. Mass ion chromato
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118 Zhang 15. Crespin, M. A., Galle
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120 Knopp The search for alternativ
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122 Knopp 4. Dissolve 40 mg BSA in
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124 Knopp Fig. 2. Scheme of tracer
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126 Knopp Fig. 3. Flow chart of the
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128 Knopp Fig. 4. Phenoxyalcanoic a
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130 Knopp 18. No or only minimal sa
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HTS-IS-ELISA for Biomonitoring Chlo
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HTS-IS-ELISA for Biomonitoring Chlo
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HTS-IS-ELISA for Biomonitoring Chlo
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HTS-IS-ELISA for Biomonitoring Chlo
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HTS-IS-ELISA for Biomonitoring Chlo
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HTS-IS-ELISA for Biomonitoring Chlo
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HTS-IS-ELISA for Biomonitoring Chlo
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150 van Hemmen, van der Jagt, and B
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152 van Hemmen, van der Jagt, and B
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154 van Hemmen, van der Jagt, and B
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156 van Hemmen, van der Jagt, and B
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158 van Hemmen, van der Jagt, and B
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160 van Hemmen, van der Jagt, and B
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162 van Hemmen, van der Jagt, and B
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164 van Hemmen, van der Jagt, and B
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166 Glass the collector and the mom
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168 Glass 3.2.1. Selection of Appli
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170 Glass Fig. 2. A field layout fo
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172 Glass questions that may arise
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174 Glass 3.5.3. Labeling of Media
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176 Glass Again, this can be relate
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Determination of Insecticides in In
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Determination of Insecticides in In
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Determination of Insecticides in In
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185 Fig. 3. Total ion current (TIC)
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187 Fig. 5. TIC chromatogram (y-axi
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Determination of Insecticides in In
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Exposure to Malathion and Metabolit
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Exposure to Malathion and Metabolit
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Exposure to Malathion and Metabolit
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Exposure to Malathion and Metabolit
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Exposure to Malathion and Metabolit
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Exposure to Malathion and Metabolit
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Exposure to Malathion and Metabolit
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Exposure to Malathion and Metabolit
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208 Araque et al. tive xenoestrogen
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210 Araque et al. 3. Methods The me
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212 Araque et al. values of 0.1 to
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214 Araque et al. estradiol and tra
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Internal Quality Criteria 219 17 Qu
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Internal Quality Criteria 221 instr
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223 Fig. 1. Basic components of the
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Internal Quality Criteria 225 Fig.
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Internal Quality Criteria 227 Resul
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Internal Quality Criteria 229 5. Th
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Pesticide Analysis by ELISA 231 18
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Pesticide Analysis by ELISA 233 4.
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Pesticide Analysis by ELISA 235 8.
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Pesticide Analysis by ELISA 237 5.
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QuEChERS Approach for Pesticides 23
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QuEChERS Approach for Pesticides 24
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QuEChERS Approach for Pesticides 24
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QuEChERS Approach for Pesticides 24
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QuEChERS Approach for Pesticides 24
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QuEChERS Approach for Pesticides 24
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QuEChERS Approach for Pesticides 25
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253 Table 2 Conditions for the GC-M
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QuEChERS Approach for Pesticides 25
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QuEChERS Approach for Pesticides 25
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- Page 273 and 274: 264 Di Muccio et al. 1. Introductio
- Page 275 and 276: 266 Di Muccio et al. Fig. 1. Assemb
- Page 277 and 278: 268 Di Muccio et al. Table 1 Mean (
- Page 279 and 280: 270 Di Muccio et al. evaporator. In
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- Page 295 and 296: 286 Barker shorten turnaround time,
- Page 297 and 298: 288 Barker 9. The extract is placed
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- Page 303 and 304: 294 Barker 8. Fernandez, M., Pico,
- Page 305 and 306: 296 Barker 43. Pico, Y., Molto, J.
- Page 307 and 308: 298 Picó ultraviolet absorbance, i
- Page 309 and 310: 300 Picó 3. Attach the conditioned
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- Page 321 and 322: 312 Norman and Panton A number of s
- Page 323 and 324: 314 Norman and Panton 3.5. Sample E
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- Page 341 and 342: 332 Hong and Chu properties and are
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- Page 351 and 352: 344 Tsutsumi et al. the analytical
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- Page 357 and 358: 350 Tsutsumi et al. Table 1 (Contin
- Page 359 and 360: 352 Tsutsumi et al. Fig. 2. Schemat
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362 Fig. 6. HS-SPME-GC-MS mass chro
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364 Tsutsumi et al. 20. Li, H. P.,
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366 Kataoka, Mitani, and Takino inc
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368 Kataoka, Mitani, and Takino Fig
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370 Fig. 2. Schematic diagram of th
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372 Kataoka, Mitani, and Takino 3.2
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374 Kataoka, Mitani, and Takino Fig
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376 Kataoka, Mitani, and Takino Fig
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378 Table 1 Sensitivity, Linearity
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380 Kataoka, Mitani, and Takino Fig
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382 Kataoka, Mitani, and Takino 25.
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384 Hogendoorn and Dijkman dimensio
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386 Hogendoorn and Dijkman Fig. 2.
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388 Hogendoorn and Dijkman Fig. 4.
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390 Hogendoorn and Dijkman Fig. 5.
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392 Hogendoorn and Dijkman Table 1
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394 Hogendoorn and Dijkman Fig. 6.
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396 Hogendoorn and Dijkman Fig. 7.
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398 Hogendoorn and Dijkman Fig. 8.
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400 Hogendoorn and Dijkman Fig. 9.
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402 Hogendoorn and Dijkman 6. Pasco
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Analysis of Quaternary Ammonium Her
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Analysis of Quaternary Ammonium Her
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Analysis of Quaternary Ammonium Her
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Analysis of Quaternary Ammonium Her
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Analysis of Quaternary Ammonium Her
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Analysis of Quaternary Ammonium Her
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Analysis of Quaternary Ammonium Her
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Analysis of Quaternary Ammonium Her
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422 Baggiani and Giovannoli Solid-p
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424 Baggiani and Giovannoli Fig. 1.
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426 Table 1 Recoveries on MISPE Col
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428 Baggiani and Giovannoli Fig. 4.
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430 Baggiani and Giovannoli 5. Buil
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432 Baggiani and Giovannoli 23. Dry
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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Automated Trace Analysis of Pestici
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454 Ikonomou and Fernandez lion lim
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456 Ikonomou and Fernandez 3. For q
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458 Ikonomou and Fernandez Table 2
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460 Ikonomou and Fernandez Most eth
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462 Ikonomou and Fernandez calibrat
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464 Ikonomou and Fernandez Table 5
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466 Ikonomou and Fernandez 11. Moen
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468 Sabik and Jeannot describe thre
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470 Table 1 Specifications for the
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472 Sabik and Jeannot Table 2 Selec
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474 Fig. 3. LC/APCI plus MS/MS chro
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476 Sabik and Jeannot Table 4 Detec
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478 Sabik and Jeannot 16. MS detect
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Optical Immunosensors for Pesticide
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Optical Immunosensors for Pesticide
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Optical Immunosensors for Pesticide
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Optical Immunosensors for Pesticide
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Optical Immunosensors for Pesticide
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492 Index overview, 105, 106 sample
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494 Index principles, 119, 120 trit
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496 Index validation, biomonitoring
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498 Index Liquid chromatography-mas
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500 Index Organophosphorous (OP) pe
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502 Index materials, 286, 287, 291
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TM METHODS IN BIOTECHNOLOGY � 19