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Keyword index — volumes 37–39
Aquatic
Toxicology
39 (1997) 361-364
AljllATlC TllXlCMO6Y
Keyword Index - volumes 37-39 Acetylcholinesterase, (37) 295 Acid-base physiology, (37) 99 Acid-base balance, (39) 291 Acridine, (37) 9 Acrosome reaction, (37) 139 Activation, (37) 21 Algae, (39) 111 Algal food, (38) 101 Aliesterase, (39) 333 Alkalinity, (38) 47 Alpine lake, (38) 47 Ammonia, (39) 345 Amphibian, (38) 241 Aneuploidy, (38) 241 Anthracene, (39) 307 Antioxidant enzymes, (39) 93 Aquatic invertebrates, (37) 22 1 Aquatic systems, (39) 307 Aquatic toxicity, (39) 267 Aromatic amine, (37) 21 Aromatic hydrocarbon quinones, (38) 83 Arsenate. (39) 247 Aryl hydrocarbon receptor, (37) 71 Asterias ruhens, (38) 17 Behavior, (37) 271 Benzo[a]pyrene metabolism, (38) 205 Benzo[a]pyrene. (38) 67 Benzo[a]pyrene, (39) 77 Bioaccumulation, (37) 201 Bioaccumulation, (37) 307 Bioaccumulation, (39) I7 1 Bioaccumulation, (39) 45 Bioavailability, (38) 101 Biochemical markers, (37) I 13 Bioconcentration factor (BCF), (39) 23 Biofouling, (39) 135 Biomarkers, (37) 157 Biomarkers. (37) 183 Biomarkers, (39) 45 Biotransformation. (37) 253 Bivalve, (37) 71 Bivalves, (38) 165
Brackidontes striutulus, (39) 135 Brook trout, (39) 151 Brown bullhead, (37) 21 Cadmium, (37) 1. 125, (38) 47, (39) 185, 231 Cuenorkubdih elegans. (39) 279 Calcium homeostasis, (38) 225 Carbon tetrachloride, (37) 169 Curcinus mienus, (37) 183 Carp, (37) 113 Catecholamines, (37) 99 Cell cycle, (38) 225 Cerasrodermn edule, (38) 165 Channel catfish, (37) 327 Chinook salmon. (38) 1 Chloride, (39) 291 Chlorination, (39) 135 Chloroform, (37) 169 Chlorpyrifos, (39) 333 Cholinesterase, (39) 333 Chromate, (39) 247 Clam, (37) 71 Class III metallothioneins, (39) 231 Coal dust, (38) 1 Cold shock. (37) I57 Compensation mechanisms. (39) I5 I Condition, (3X) 165 Contaminant lesion, (37) 51 Control measures, (39) 135 Copper toxicity. (37) 327 Copper. (38) 165 Copper. (38) 47 Copper. (39) 93 Cortisol, (37) 87 Crassostrea virginica, (39) 185 Critical thermal maximum, (39) 345 %I, (38) 257 Cu metabolism, (38) 257 Cu uptake. (38) 257 Cu-acclimation. (38) 257 Cumulative effects, (39) 151 Cyanobacteria, (39) 111 CYPlAl, (38) 1
362
Kc~w~r~l II&\,
CYP2KI.
wlroncs 37 3Y /Ayu~ric~
(37) 237
To.\-iwlq~~
Hazard
39 i IVY 7) 36 1 364
assessments. (39) I I I
Cytochrome
P450 IA. (38) 67
Heat shock protein,
Cytochrome
P450 7KI.
HewI
Cytochrome
P450. (37) 21. 113. 2X3
Hepatocyte
Cytochrome
P4SOlA.
Hepatocytcs.
(37) 237 (38) 205
(37) I57
metals, (38) I7 cultures. (37) 253 (37) 87
2.2’.3,4.4’.5’-Hexachlorobiphenyl. DNA. DNA
I~~~Ur,qv?itrlig’&
(37) 237
Hexwinone,
adducts. (37) 21
DNA-adducts. DNA-protein
crosslinking,
Depuration.
(37) 125. (38) IO1 pulse polarography.
HSP70.
Digestive gland microsomes,
(38) 83 (37) 205
11I
(39)
ECOD
actl\ity.
Elimination. Embryo.
Kinetics.
impact. (38) I83
Environmental
risk assessment, (39) 45
Expected envnx~nmental concentration Expression.
(EEC).
Lila.
Feral eel (Arlg~tilk~ tnfg~illtr). (39) 45 I-ate. (37) 9 one-compartment
model, (39) 73
(38) 183
Fish hepatocytex.
(39) 18.5
(37)
macromolecule.
LMC3. LR50.
lhil
Fish. (37) 253
(38) I (37) 237 (37) 307
‘Ilwr~,/r~ /w/t/wtr.
(38) I65
Marine
Invertebwte.
(37) 71
Marine
mussels. (39) 307
Mar~nc sponge, (37) IS7
Fish. (3X) 3.5 ~~loundcl-. (39) I95 Flo\ti cytometry,
(38) 241
I
impairment.
(37)
hi\alves.
(39) 93
Metabolism.
(37) 21
Metabolism.
(37) 87
Metabolism.
(37) 9
Metabolite\.
(39) 77
Metal Metal.
GDP-diasoc~atlo~i
mhihitor.
137) 157
toxicity.
(39)
18.5
(39) 279
Metallothionein
. (38) 17
Gene expression. (38) I
Metallothionein.
(37)
Cienotoxclcity. (38) 241
Metallothionein.
(37) 327
Gwtl/t/
~,v(/o,lirUll. (37) I57
Glutathione
rcductasc, (i9)
93
Metallothioneln.
(38) 257 (38) 47 (39) I85
Glutathione.
(37) 169
Mrtallothionein.
(39) 93
Metal\.
Delta.
(39) 171
183
Metallothionein.
Glutathione. Gijksu
(37) I39
(39) 93
Z.~~/~,~oh~r/c~lliloll ro.\c/lho.gii.
Fish. (37) 51
Freshwater
toxicitv.
Lipid peroxidation.
I
(39)
Fish communities.
Lnrwl
I.ignin-derlvcd
(39) 307
minnow,
(39)
(39) 321
Lake whitefish. (37) 201 Lc‘50. (37) 307
(37) 737
Fat substitute.
Foraging
(39) 291
(38) IO1
Lake trout.
III
Firat-ordcl-
(39) I85
Juvcnilc. (3X) 67
(37) 2x3
(37) 237
Filtration
(38) 205 (37) 171
(39) 77
Environmental
Fathead
Induction.
Ion concentration.
III
(39)
(39) 215
Ingestion.
Invertebrate.
nwicro?tr fxJ~l’ftwr;i&i. (37) 9. 283. 295 Duckweed.
(39) I
(37) I57
?I-Hydroxylation.
(37) 71
(37) 5 I
eff’ects. (37) 201
Histopathology. (38) I7
Diisopropylfluorophosphate. Diquat.
biomarker.
Histopathological
(39) 247
Diff‘ercntial
Dioxin.
(3Y) I I I
Histopathologic
(38) 67
(38) 205
(37) I 25
(39) I8
Mcthaemoglobin,
(37) 99
GR,
(391 -715
Vethyl
(;T.
(39) 715
McthylmCI-CUry. (37)
parathion.
(39) 333 I25
(39) 29 I
Keyword
Index,
volumes 37-39
MFO, (37) 201 Microalga, (39) 231 Mixed-function oxygenase (MFO), (37) 283 Model, (37) 37 Mollusc, (39) I85 Molluscs, (38) 35 Monooxygenase system. (38) 35 Mortality. (39) I35 Mortality. (39) 291 Mosquitofish, (39) 333 mRNA, (39) I85 Multivariate analyses (PCA, DA), (39) 45 Multivariate classification, (38) 277 Mussel digestive gland, (38) 205 Mytihrs edulis, (38) 83, 101, I65 Mytilm
gulioprovincialis,
(38) 205
Na+ and Cl- transport, (38) I45 Nematode, (39) 279 Nickel, (39) 247 Nitrite, (39) 291 Nitrite. (39) 345 Nitrogen-containing polycyclic aromatic bons, (37) 9 Non-ionic surfactants, (37) 221 NPAH, (37) 9 Oestradiol. (39) I95 Oestrogen synthesis, (39) I95 Oligochaete, (37) 37 Oncorlgwchus
mykiss,
(38) 145, 257
Organic trace pollutants, (39) 45 Organochlorine pesticides, (39) I71 Organophosphate metabolism, (37) 283 Organophosphate, (37) 295 Organotin, (38) 225 Osmoregulation, (38) I45 Ovary. (39) I95 Oxidative uncoupling, (38) 277 Oxyhemocyanin, (39) 291 Oyster. (39) I85 P-450,
(37) 87
PAH, (39) I PCB. (38) 101, (39) 215, 321 Penwu.s .setif&us, (39) 345 P/n fic,h thps ffesus, (39) 195 parathion. (39) 333 Pathology. (37) 99 Pentachlorophenol, (37) 27 I Pesticide, (38) 241 Pesticides. (39) 23 Phenols. (38) 277 Photo-induced toxicity, (39) I
hydrocar-
IAquutic
Toxicology
39 (1997)
361-364
363
Photoafinity label, (37) 71 Phototoxicity, (37) 37 Physiological functions, (39) I35 Physiological toxicity, (38) I45 Physiologically-based bioaccumulation model, (38) IO1 Plasma, (39) I95 Polar narcosis, (38) 277 Pollution. (39) I95 Polychaetes, (39) 77 Polychlorinated biphenyls, (37) I 13 Polychlorobiphenyls, (38) 205 Polycyclic aromatic hydrocarbons. (37) 37. I I3 Population, (37) 51 Population-level effects, (39) I51 Power plant, (39) I35 Predator, (37) 271 Predator-prey interactions. (37) I Prediction. (39) 279 Prey. (37) 271 Primary culture, (37) 169 Protein, (39) 291 Protein isolation. (37) 237 Quinones,
(39) 267
Radiolabelling, (37) 295 Rainbow trout, (37) 169 Rainbow trout, (37) 201 Rainbow trout, (37) 237 Rainbow trout, (37) 87 Rainbow trout. (38) I45 Rainbow trout, (38) 257 Reactive oxygen species, (38) 83 Redox cycling, (38) 83 REML analysis, (39) 45 Reproductive cycle, (39) 195 Residue. (39) I7 I Respiration. (37) 99 Retinoids. (39) 321 Ribonuclease protection assay, (39) 185 Ribosomal protein L5. (38) I Risk assessment, (38) I83 RNA, (37) 237 Rotifer, (37) 271 RT-cPCR. (38) 1 Sac-fry.
(37) 237
Srr/ce/ir~u,s, (38) 47
.Sco~htl~ul~?~u.snmuinws. (38) 67 Screening, (37) 253 Sea urchin eggs, (38) 225 Sea urchin embryo, (39) 247 Sea urchin sperm, (37) 139
Sediment. (38) 16.5 Sediment source, (37) 125 Selenium-dependent glutathione peroxidase. 93 Sexual differences. (37) 327 Shellfish. (39) 23 Silt fraction. (3X) 165 Silver nitrate. (3X) 14.5 Sorption, (38) IO1 Species difference. (39) 23 Species differences, (37) 307 Species variation. (37) 201 Stream mesocosms. (37) 221 Stress proteins. (37) I83 Stress. (39) 215 Stressor interactions. (39) ISI Structure activity relationship. (37) 37 Sublethal effects. (37) I Sublethal stress. (37) I.57 Sucrose polestcr. (39) 307 TBT, (38) 325 TCDD. (37) 71. ?()I Teleost. (39) I95 Test battery. (38) 277 3.3’.4.4’-Tetrachlorobiphenyl. (37) 87 2.3.7.8-Tetrachlorodibenro-p-dioxin, (37) 71 T~~trcrl~umwo p~~rifornri.~. (39) 267
(39)
Thiram. (39) 93 Tolerance. (39) 23 I Toxicant. (37) X7 Toxicity. (37) 2.53. 271. (39) 279 Toxicokinetics. (37) 307 Trace metals. (37) I83 TRI Reagent, (37) 237 Tributyltin. (37) 307 Tributyltin. (38) 35 Triphenyltin. (38) 35 Turbot liver. (38) 67 UGT. (39) 215 I;ltrastructure. (39) I lJltraviolct light. (37) 37 LJn- and bivariate correlation analyses. (39) 45 (:/Ii0 sp.. (39) 93 Uptake, (3X) 101 liptake and depuration rate constants. (39) 23 Vitcllogenesis.
(39) 195
Water
(37) I25
source.
Xenobiotics.
(37) 253
Zebra mussel. (37) 9 Zinc. (38) 47
Toxicology
39 (1997) 361-364
AljllATlC TllXlCMO6Y
Keyword Index - volumes 37-39 Acetylcholinesterase, (37) 295 Acid-base physiology, (37) 99 Acid-base balance, (39) 291 Acridine, (37) 9 Acrosome reaction, (37) 139 Activation, (37) 21 Algae, (39) 111 Algal food, (38) 101 Aliesterase, (39) 333 Alkalinity, (38) 47 Alpine lake, (38) 47 Ammonia, (39) 345 Amphibian, (38) 241 Aneuploidy, (38) 241 Anthracene, (39) 307 Antioxidant enzymes, (39) 93 Aquatic invertebrates, (37) 22 1 Aquatic systems, (39) 307 Aquatic toxicity, (39) 267 Aromatic amine, (37) 21 Aromatic hydrocarbon quinones, (38) 83 Arsenate. (39) 247 Aryl hydrocarbon receptor, (37) 71 Asterias ruhens, (38) 17 Behavior, (37) 271 Benzo[a]pyrene metabolism, (38) 205 Benzo[a]pyrene. (38) 67 Benzo[a]pyrene, (39) 77 Bioaccumulation, (37) 201 Bioaccumulation, (37) 307 Bioaccumulation, (39) I7 1 Bioaccumulation, (39) 45 Bioavailability, (38) 101 Biochemical markers, (37) I 13 Bioconcentration factor (BCF), (39) 23 Biofouling, (39) 135 Biomarkers, (37) 157 Biomarkers. (37) 183 Biomarkers, (39) 45 Biotransformation. (37) 253 Bivalve, (37) 71 Bivalves, (38) 165
Brackidontes striutulus, (39) 135 Brook trout, (39) 151 Brown bullhead, (37) 21 Cadmium, (37) 1. 125, (38) 47, (39) 185, 231 Cuenorkubdih elegans. (39) 279 Calcium homeostasis, (38) 225 Carbon tetrachloride, (37) 169 Curcinus mienus, (37) 183 Carp, (37) 113 Catecholamines, (37) 99 Cell cycle, (38) 225 Cerasrodermn edule, (38) 165 Channel catfish, (37) 327 Chinook salmon. (38) 1 Chloride, (39) 291 Chlorination, (39) 135 Chloroform, (37) 169 Chlorpyrifos, (39) 333 Cholinesterase, (39) 333 Chromate, (39) 247 Clam, (37) 71 Class III metallothioneins, (39) 231 Coal dust, (38) 1 Cold shock. (37) I57 Compensation mechanisms. (39) I5 I Condition, (3X) 165 Contaminant lesion, (37) 51 Control measures, (39) 135 Copper toxicity. (37) 327 Copper. (38) 165 Copper. (38) 47 Copper. (39) 93 Cortisol, (37) 87 Crassostrea virginica, (39) 185 Critical thermal maximum, (39) 345 %I, (38) 257 Cu metabolism, (38) 257 Cu uptake. (38) 257 Cu-acclimation. (38) 257 Cumulative effects, (39) 151 Cyanobacteria, (39) 111 CYPlAl, (38) 1
362
Kc~w~r~l II&\,
CYP2KI.
wlroncs 37 3Y /Ayu~ric~
(37) 237
To.\-iwlq~~
Hazard
39 i IVY 7) 36 1 364
assessments. (39) I I I
Cytochrome
P450 IA. (38) 67
Heat shock protein,
Cytochrome
P450 7KI.
HewI
Cytochrome
P450. (37) 21. 113. 2X3
Hepatocyte
Cytochrome
P4SOlA.
Hepatocytcs.
(37) 237 (38) 205
(37) I57
metals, (38) I7 cultures. (37) 253 (37) 87
2.2’.3,4.4’.5’-Hexachlorobiphenyl. DNA. DNA
I~~~Ur,qv?itrlig’&
(37) 237
Hexwinone,
adducts. (37) 21
DNA-adducts. DNA-protein
crosslinking,
Depuration.
(37) 125. (38) IO1 pulse polarography.
HSP70.
Digestive gland microsomes,
(38) 83 (37) 205
11I
(39)
ECOD
actl\ity.
Elimination. Embryo.
Kinetics.
impact. (38) I83
Environmental
risk assessment, (39) 45
Expected envnx~nmental concentration Expression.
(EEC).
Lila.
Feral eel (Arlg~tilk~ tnfg~illtr). (39) 45 I-ate. (37) 9 one-compartment
model, (39) 73
(38) 183
Fish hepatocytex.
(39) 18.5
(37)
macromolecule.
LMC3. LR50.
lhil
Fish. (37) 253
(38) I (37) 237 (37) 307
‘Ilwr~,/r~ /w/t/wtr.
(38) I65
Marine
Invertebwte.
(37) 71
Marine
mussels. (39) 307
Mar~nc sponge, (37) IS7
Fish. (3X) 3.5 ~~loundcl-. (39) I95 Flo\ti cytometry,
(38) 241
I
impairment.
(37)
hi\alves.
(39) 93
Metabolism.
(37) 21
Metabolism.
(37) 87
Metabolism.
(37) 9
Metabolite\.
(39) 77
Metal Metal.
GDP-diasoc~atlo~i
mhihitor.
137) 157
toxicity.
(39)
18.5
(39) 279
Metallothionein
. (38) 17
Gene expression. (38) I
Metallothionein.
(37)
Cienotoxclcity. (38) 241
Metallothionein.
(37) 327
Gwtl/t/
~,v(/o,lirUll. (37) I57
Glutathione
rcductasc, (i9)
93
Metallothioneln.
(38) 257 (38) 47 (39) I85
Glutathione.
(37) 169
Mrtallothionein.
(39) 93
Metal\.
Delta.
(39) 171
183
Metallothionein.
Glutathione. Gijksu
(37) I39
(39) 93
Z.~~/~,~oh~r/c~lliloll ro.\c/lho.gii.
Fish. (37) 51
Freshwater
toxicitv.
Lipid peroxidation.
I
(39)
Fish communities.
Lnrwl
I.ignin-derlvcd
(39) 307
minnow,
(39)
(39) 321
Lake whitefish. (37) 201 Lc‘50. (37) 307
(37) 737
Fat substitute.
Foraging
(39) 291
(38) IO1
Lake trout.
III
Firat-ordcl-
(39) I85
Juvcnilc. (3X) 67
(37) 2x3
(37) 237
Filtration
(38) 205 (37) 171
(39) 77
Environmental
Fathead
Induction.
Ion concentration.
III
(39)
(39) 215
Ingestion.
Invertebrate.
nwicro?tr fxJ~l’ftwr;i&i. (37) 9. 283. 295 Duckweed.
(39) I
(37) I57
?I-Hydroxylation.
(37) 71
(37) 5 I
eff’ects. (37) 201
Histopathology. (38) I7
Diisopropylfluorophosphate. Diquat.
biomarker.
Histopathological
(39) 247
Diff‘ercntial
Dioxin.
(3Y) I I I
Histopathologic
(38) 67
(38) 205
(37) I 25
(39) I8
Mcthaemoglobin,
(37) 99
GR,
(391 -715
Vethyl
(;T.
(39) 715
McthylmCI-CUry. (37)
parathion.
(39) 333 I25
(39) 29 I
Keyword
Index,
volumes 37-39
MFO, (37) 201 Microalga, (39) 231 Mixed-function oxygenase (MFO), (37) 283 Model, (37) 37 Mollusc, (39) I85 Molluscs, (38) 35 Monooxygenase system. (38) 35 Mortality. (39) I35 Mortality. (39) 291 Mosquitofish, (39) 333 mRNA, (39) I85 Multivariate analyses (PCA, DA), (39) 45 Multivariate classification, (38) 277 Mussel digestive gland, (38) 205 Mytihrs edulis, (38) 83, 101, I65 Mytilm
gulioprovincialis,
(38) 205
Na+ and Cl- transport, (38) I45 Nematode, (39) 279 Nickel, (39) 247 Nitrite, (39) 291 Nitrite. (39) 345 Nitrogen-containing polycyclic aromatic bons, (37) 9 Non-ionic surfactants, (37) 221 NPAH, (37) 9 Oestradiol. (39) I95 Oestrogen synthesis, (39) I95 Oligochaete, (37) 37 Oncorlgwchus
mykiss,
(38) 145, 257
Organic trace pollutants, (39) 45 Organochlorine pesticides, (39) I71 Organophosphate metabolism, (37) 283 Organophosphate, (37) 295 Organotin, (38) 225 Osmoregulation, (38) I45 Ovary. (39) I95 Oxidative uncoupling, (38) 277 Oxyhemocyanin, (39) 291 Oyster. (39) I85 P-450,
(37) 87
PAH, (39) I PCB. (38) 101, (39) 215, 321 Penwu.s .setif&us, (39) 345 P/n fic,h thps ffesus, (39) 195 parathion. (39) 333 Pathology. (37) 99 Pentachlorophenol, (37) 27 I Pesticide, (38) 241 Pesticides. (39) 23 Phenols. (38) 277 Photo-induced toxicity, (39) I
hydrocar-
IAquutic
Toxicology
39 (1997)
361-364
363
Photoafinity label, (37) 71 Phototoxicity, (37) 37 Physiological functions, (39) I35 Physiological toxicity, (38) I45 Physiologically-based bioaccumulation model, (38) IO1 Plasma, (39) I95 Polar narcosis, (38) 277 Pollution. (39) I95 Polychaetes, (39) 77 Polychlorinated biphenyls, (37) I 13 Polychlorobiphenyls, (38) 205 Polycyclic aromatic hydrocarbons. (37) 37. I I3 Population, (37) 51 Population-level effects, (39) I51 Power plant, (39) I35 Predator, (37) 271 Predator-prey interactions. (37) I Prediction. (39) 279 Prey. (37) 271 Primary culture, (37) 169 Protein, (39) 291 Protein isolation. (37) 237 Quinones,
(39) 267
Radiolabelling, (37) 295 Rainbow trout, (37) 169 Rainbow trout, (37) 201 Rainbow trout, (37) 237 Rainbow trout, (37) 87 Rainbow trout. (38) I45 Rainbow trout, (38) 257 Reactive oxygen species, (38) 83 Redox cycling, (38) 83 REML analysis, (39) 45 Reproductive cycle, (39) 195 Residue. (39) I7 I Respiration. (37) 99 Retinoids. (39) 321 Ribonuclease protection assay, (39) 185 Ribosomal protein L5. (38) I Risk assessment, (38) I83 RNA, (37) 237 Rotifer, (37) 271 RT-cPCR. (38) 1 Sac-fry.
(37) 237
Srr/ce/ir~u,s, (38) 47
.Sco~htl~ul~?~u.snmuinws. (38) 67 Screening, (37) 253 Sea urchin eggs, (38) 225 Sea urchin embryo, (39) 247 Sea urchin sperm, (37) 139
Sediment. (38) 16.5 Sediment source, (37) 125 Selenium-dependent glutathione peroxidase. 93 Sexual differences. (37) 327 Shellfish. (39) 23 Silt fraction. (3X) 165 Silver nitrate. (3X) 14.5 Sorption, (38) IO1 Species difference. (39) 23 Species differences, (37) 307 Species variation. (37) 201 Stream mesocosms. (37) 221 Stress proteins. (37) I83 Stress. (39) 215 Stressor interactions. (39) ISI Structure activity relationship. (37) 37 Sublethal effects. (37) I Sublethal stress. (37) I.57 Sucrose polestcr. (39) 307 TBT, (38) 325 TCDD. (37) 71. ?()I Teleost. (39) I95 Test battery. (38) 277 3.3’.4.4’-Tetrachlorobiphenyl. (37) 87 2.3.7.8-Tetrachlorodibenro-p-dioxin, (37) 71 T~~trcrl~umwo p~~rifornri.~. (39) 267
(39)
Thiram. (39) 93 Tolerance. (39) 23 I Toxicant. (37) X7 Toxicity. (37) 2.53. 271. (39) 279 Toxicokinetics. (37) 307 Trace metals. (37) I83 TRI Reagent, (37) 237 Tributyltin. (37) 307 Tributyltin. (38) 35 Triphenyltin. (38) 35 Turbot liver. (38) 67 UGT. (39) 215 I;ltrastructure. (39) I lJltraviolct light. (37) 37 LJn- and bivariate correlation analyses. (39) 45 (:/Ii0 sp.. (39) 93 Uptake, (3X) 101 liptake and depuration rate constants. (39) 23 Vitcllogenesis.
(39) 195
Water
(37) I25
source.
Xenobiotics.
(37) 253
Zebra mussel. (37) 9 Zinc. (38) 47