Your search keyword '"McDowell LR"' showing total 2 results

1. Methylmercury accumulation in tissues and its effects on growth and appetite in captive great egrets.

Author

Spalding MG, Frederick PC, McGill HC, Bouton SN, and McDowell LR

Subjects

Age Factors, Animal Feed, Animals, Birds growth & development, Birds physiology, Body Weight drug effects, Feathers metabolism, Feces chemistry, Female, Fishes, Kidney metabolism, Liver metabolism, Male, Mercury analysis, Mercury blood, Mercury Poisoning physiopathology, Methylmercury Compounds administration & dosage, Methylmercury Compounds toxicity, Selenium administration & dosage, Selenium pharmacokinetics, Sex Factors, Tissue Distribution, Appetite drug effects, Bird Diseases chemically induced, Bird Diseases physiopathology, Birds metabolism, Mercury Poisoning veterinary, Methylmercury Compounds pharmacokinetics

Abstract

To test the hypothesis that fledging wading birds would be more at risk from mercury toxicosis than younger nestlings, captive great egret nestlings were maintained as controls or were dosed from 1- to 14-wk-old with 0.5 or 5 mg methylmercury chloride/kg wet weight in fish. Birds dosed with 5 mg/kg suffered from subacute toxicosis at wk 10-12. Growing feather concentrations were the most closely correlated with cumulative mercury consumed per weight. Blood concentrations of mercury increased more rapidly after 9 wk in all groups when feathers stopped growing. Total mercury accumulated in tissues in concentrations in the following order: growing scapular feathers > powderdown > mature scapular feathers > liver > kidney > blood > muscle > pancreas > brain > bile > fat > eye. The proportion of total mercury that was methylated depended upon tissue type and dose group. Selenium accumulated in liver in direct proportion to liver mercury concentrations. After wk 9, appetite and weight index (weight/bill length) declined significantly in both dosed groups. At current exposure levels in the Everglades (Florida, USA) mercury deposited in rapidly growing feathers may protect nestlings from adverse effects on growth until feathers cease growing.

Published

2000

2. Selenium status of white-tailed deer in southern Florida.

Author

McDowell LR, Forrester DJ, Linda SB, Wright SD, and Wilkinson NS

Subjects

Age Factors, Analysis of Variance, Animals, Deer blood, Female, Florida, Kidney chemistry, Liver chemistry, Male, Myocardium chemistry, Seasons, Selenium blood, Deer metabolism, Selenium analysis

Abstract

Samples of serum, liver, kidney, and heart were collected for selenium analysis from 174 white-tailed deer (Odocoileus virginianus) in southern Florida (USA), 1984 to 1988, to determine the selenium status of these animals. Deer were obtained from eight sites and classified by five age-class groups. For serum and the three tissues analyzed, selenium concentrations varied significantly (P < 0.001) among sites. Differences between years (P < 0.0004) were found for heart and kidney, age-class (P < 0.004) for kidney and season (P < 0.02) for liver. Low selenium concentrations were evident, in that 75% of all serum samples analyzed contained less than the critical concentration (< 0.06 ppm) by livestock standards, with 50% of serum samples less than 0.03 ppm, evidence of a severe deficiency. Likewise, tissue selenium concentrations (dry basis) were below critical livestock concentrations in 13% of the liver samples (< 0.25 ppm), 36% in kidney (< 3.0 ppm) and 19% in heart (< 0.15 ppm). Based on serum and tissue data, selenium dietary intake was low and may have been deficient for white-tailed deer in southern Florida.

Published

1995