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Anas platyrhynchos

Citation:

Subchronic effects of sodium selenite and selenomethionine on several immune functions in mallards.

Author(s)
Fairbrother, A. and J. Fowles
Pages
836-844
Year
Volume
19
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Location Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
SELENITE, SODIUM, SELENOMETHIONINE increased @ 3.5 mg/L (selenite) or 2.2 mg/L (selenomethionine) serum ALT enzyme activity versus controls n high selenite and selenomethionine groups. Male Adult laboratory Controls = 24 Treated = 8 0, 3.5 mg Se/L (as sodium selenite); 2.2 mg Se/L (selenomethionine) TOX-Non-Repro-Sublethal - cellular/biochemical effects 12 weeks drinking water Toxicity Factor Datasets
SELENOMETHIONINE increased (12-fold) selenium concentrations in pectoral muscle Male Adult Laboratory Controls = 24 Treated = 8 0, 2.2 mg Se/L TOX-EXP IND - accumulation 12 weeks Drinking water Toxicity Factor Datasets
Citation:

Heat exposure and the toxicity of one number four lead shot in mallards, Anas platyrhynchos

Author(s)
Srebocan, Emil and Barnett A. Rattner
Pages
165-169
Year
Volume
40
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Location Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
LEAD (elemental) decreased hemoglobin and hematocrit versus controls Male Juvenile Laboratory 8 0, 1 lead shot (no. 4) TOX-Non-Repro-Sublethal - organ/system effects Single exposure Gavage Toxicity Factor Datasets
LEAD (elemental) decreased (60%) blood ALAD activity versus controls Male Juvenile Laboratory 8 0, 1 lead shot (no. 4) TOX-Non-Repro-Sublethal - cellular/biochemical effects Single exposure Gavage Toxicity Factor Datasets
LEAD (elemental) increased blood protoporphyrin levels versus controls Male Juvenile Laboratory 8 0, 1 lead shot (no. 4) TOX-Non-Repro-Sublethal - cellular/biochemical effects Single exposure Gavage Toxicity Factor Datasets
Citation:

Toxicity of lead shot to wild black ducks and mallards fed natural foods.

Author(s)
Chasko, G.G., T.R. Hoehn and P. Howell-Heller
Pages
417-428
Year
Volume
32
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
LEAD (elemental) increased @ 5 shot (33%) and repeated 5 shot (40%) percent mortality versus controls Both Male and Female Not Reported 5-6/group 0, 2, 5, 5 (w/5 repeated doses) Pb shot (no. 6) TOX-MORT - dose-response data Single dose, except for repeated dose group Gavage Toxicity Factor Datasets
LEAD (elemental) decreased bw versus controls Both Male and Female Not Reported 5-6/group 0, 2, 5, 5 (w/5 repeated doses) Pb shot (no. 6) TOX-Non-Repro-Sublethal - whole animal Single dose, except for repeated dose group Gavage Toxicity Factor Datasets
LEAD (elemental) increased @ all doses Pb concentrations in wing bone and liver Both Male and Female Not Reported 5-6/group 0, 2, 5, 5 (w/5 repeated doses) Pb shot (no. 6) TOX-EXP IND - accumulation Single dose, except for repeated dose group Gavage Toxicity Factor Datasets
Citation:

Selenium accumulation and elimination in mallards

Author(s)
Heinz, G.H., G.W. Pendleton, A.J. Krynitsky and L.G. Gold
Pages
374-379
Year
Volume
19
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
SELENOMETHIONINE liver: C = 7.4(1-e^-0.382t) muscle: C = 8.0(1-e^-0.037t) selenium accumulation equations Both Male and Female Adult 3 10 ppm Se TOX-EXP IND - accumulation 42 days Diet Toxicity Factor Datasets
SELENOMETHIONINE liver: C = 7.4e^-0.037t muscle: C = 5.6e^-0.023t liver at peak body burden: C = 22.6e^-0.246t + 2.5 e^-0.008t muscle at peak body burden: C = 6.4e^-0.029t Loss phase for blood at peak body burden: C = 12.0e^-0.071t selenium depuration equations Both Male and Female Adult 3 10 ppm, doubled weekly, Se TOX-EXP IND - accumulation 28 days Diet Toxicity Factor Datasets
SELENOMETHIONINE liver: 18.7 d muscle: 30.1 d half life of selenium in tissues Both Male and Female Adult 3 10 ppm Se TOX-EXP IND - accumulation 42 days Diet Toxicity Factor Datasets
Citation:

Embryotoxic effects of crude oil in mallard ducks and chicks

Author(s)
Hoffman, D.J.
Pages
183-190
Year
Volume
46
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
CRUDE OILS decreased @ 5 uL/egg embryonic weight (females) and crown rump length (both sexes) Both Male and Female Hatchling 65 eggs/group 0, 1, or 5 uL TOX-REPRO - development Single exposure Topical on eggshell Toxicity Factor Datasets
CRUDE OILS decreased to 65% @ 1 uL/egg); 9% @ 5 uL/egg embryo survival to 18 days Both Male and Female Embryo 65 eggs/group 0, 1, or 5 uL TOX-REPRO - development Single exposure Topical on eggshell Toxicity Factor Datasets
Citation:

Interactive effects of selenium, methionine, and dietary protein on survival, growth, and physiology in mallard ducklings.

Author(s)
Hoffman, D.J., C.J. Sanderson, L.J. LeCaptain, E. Cromartie and G.W. Pendleton
Pages
163-171
Year
Volume
23
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
SELENOMETHIONINE increased @ 15 ppm, 60 ppm (adequate protein, no methionine added) incidence of histopathological changes in livers versus controls Not Reported Juvenile 15/group 0, 15, or 60 ppm Se; with and without added methionine, and varying protein levels TOX-Non-Repro-Sublethal - organ/system effects 4 weeks Dietary Toxicity Factor Datasets
SELENOMETHIONINE decreased @ 60 ppm (regardless of methionine suppl. or protein levels) body, liver and spleen weights, and tarsus length versus controls Not Reported Juvenile 15/group 0, 15, or 60 ppm Se; with and without added methionine, and varying protein levels TOX-Non-Repro-Sublethal - whole animal 4 weeks Dietary Toxicity Factor Datasets
SELENOMETHIONINE increased @ 15 (GSH-peroxidase only), 60 ppm Se, adequate protein plasma GSH-peroxidase and alkaline phosphatase activities versus controls Not Reported Juvenile 15/group 0, 15, or 60 ppm Se; with and without added methionine, and varying protein levels TOX-Non-Repro-Sublethal - cellular/biochemical effects 4 weeks Diet Toxicity Factor Datasets
Citation:

Behavior of mallard ducklings from adults exposed to selenium

Author(s)
Heinz, G.H. and L.G. Gold
Pages
863-865
Year
Volume
6
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
SELENOMETHIONINE no effect distance run in 2 seconds from a fright stimulus vs controls Not Reported Chick 32, 14, 14, 14, 11 in the 0, 1, 2, 4, and 8 ppm groups 0, 1, 2, 4, or 8 ppm Se TOX-Non-Repro-Sublethal - behavioral effects 4 weeks (parents) parental diet Toxicity Factor Datasets
Citation:

Marked DDE impairment of mallard reproduction in controlled studies

Author(s)
Heath, R.G., J.W. Spann and J.F. Kreitzer
Pages
47-48
Year
Volume
224
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
DDE (4,4'-) decreased % normal hatchlings versus controls Not Reported Embryo 492-518, 232-384, and 128-276 for the 0, 10, and 40 ppm DDE groups 0, 10, or 40 ppm TOX-REPRO - development 2 years Diet Toxicity Factor Datasets
DDE (4,4'-) decreased number of 14-day old ducklings per hen versus controls Both Male and Female Hatchling 274-327, 69-167, and 26-113 for the 0, 10, and 40 ppm DDE groups 0, 10, or 40 ppm TOX-REPRO - reproductive success 2 years Diet Toxicity Factor Datasets
DDE (4,4'-) increased % cracked eggs versus controls Female Hatchling 666-696, 620-664, and 317-602 for the 0, 10, and 40 ppm DDE groups 0, 10, or 40 ppm TOX-REPRO - physiology 2 years Diet Toxicity Factor Datasets
DDE (4,4'-) decreased eggshell thickness versus controls Female Adult 20-28, 21-25, and 10-23 for the 0, 10, and 40 ppm DDE groups 0, 10, or 40 ppm TOX-REPRO - physiology 2 years Diet Toxicity Factor Datasets
Citation:

Effect of age on sensitivity: Acute oral toxicity of 14 pesticides to mallard ducks of several ages

Author(s)
Hudson, R.H., R.K. Tucker and M.A. Haegele
Pages
556-561
Year
Volume
22
Chemical Endpoint Value Endpoint Description Range Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
CHLORPYRIFOS 145 mg/kg LD50 55.8 - 377 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
CHLORPYRIFOS 29.4 mg/kg LD50 18.6 - 46.7 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
CHLORPYRIFOS 50.4 mg/kg LD50 32.5 - 78.1 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
CHLORPYRIFOS 83.3 mg/kg LD50 44.0 - 158 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ENDOSULFAN 27.8 mg/kg LD50 22.8 - 33.8 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ENDOSULFAN 6.47 mg/kg LD50 5.19 - 8.05 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ENDOSULFAN 7.89 mg/kg LD50 5.77 - 10.8 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ENDOSULFAN 34.4 mg/kg LD50 26.1 - 45.3 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ALDICARB 1.92 mg/kg LD50 1.55 - 2.37 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ALDICARB 3.60 mg/kg LD50 2.90 - 4.49 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ALDICARB 6.73 mg/kg LD50 5.29 - 8.55 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
ALDICARB 4.44 mg/kg LD50 3.49 - 5.65 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
PARATHION 1.65 mg/kg LD50 1.40 - 1.96 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
PARATHION 1.44 mg/kg LD50 1.13 - 1.83 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
PARATHION 1.65 mg/kg LD50 1.40 - 1.96 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
PARATHION 2.34 mg/kg LD50 1.98 - 2.78 (95% CI) Both Male and Female Juvenile 5 NR TOX-MORT - toxicity benchmarks Single exposure Gavage Toxicity Factor Datasets
Citation:

p,p' - DDE - induced changes in the organic and inorganic structure of eggshells of the mallard, Anas platyrhynchos

Author(s)
Greenburg, R.R., Risebrough, R.W. and D.W. Anderson
Pages
279-286
Year
Volume
48
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
AROCLOR 1254, DDE (4,4'-) decreased with all treatments numbers of mammillary cores and basal caps on eggshell membranes versus controls Female Adult 6-8 eggs/group from 10 hens 0, 40 ppm DDE, 40 ppm Aroclor, 40 ppm DDE + 40 ppm Aroclor TOX-REPRO - physiology NR Diet Toxicity Factor Datasets
Citation:

Toxic, neurochemical and behavioral effects of dieldrin exposure in mallard ducks

Author(s)
Sharma, R.P., D.S. Winn and J.B. Low
Pages
43-53
Year
Issue
1
Volume
5
Chemical Endpoint Value Endpoint Description Sex Life Cycle Stage Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
DIELDRIN decreased @ 10 ppm (serotonin only) and 30 ppm Serotonin, norepinephrine, and dopamine levels versus controls Both Male and Female Juvenile 3-6 per group 0, 4, 10, and 30 ppm Dieldrin TOX-Non-Repro-Sublethal - cellular/biochemical effects Second - generation. Exposed 75 days after hatch. Diet Toxicity Factor Datasets

Citation:

Interactive effects of selenium, methionine, and dietary protein on survival, growth, and physiology in mallard ducklings.

Author(s)
Hoffman, D.J., C.J. Sanderson, L.J. LeCaptain, E. Cromartie and G.W. Pendleton
Pages
163-171
Year
Volume
23
Endpoint Value Endpoint Description Sample Size Tox Exposure Toxicity Endpoint Type Tox Exposure Duration Tox Exposure Technique Type
increased @ 15 , 60 ppm (regardless of methionine suppl. or protein levels) liver GSH-peroxidase activity versus controls 12/group 0, 15, or 60 ppm Se; with and without added methionine, and varying protein levels TOX-Non-Repro-Sublethal - organ/system effects 4 weeks Dietary Toxicity Factor Datasets
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