Influence of vitamin E and carcass feeding supplementation on fecal glucocorticoid and androgen metabolites in male black-footed ferrets (Mustela nigripes).

In recent years, the ex situ population of the endangered black-footed ferret (Mustela nigripes; ferret) has experienced a decline in normal sperm morphology (from 50% to 20%), which may be linked to inbreeding depression and/or a dietary change. We examined the effects of adding carcass and vitamin E to the diet on stress and reproductive biomarkers in male ferrets (n = 42 males including 16 juveniles and 26 adults) housed at the U.S. Fish and Wildlife National Black-footed Ferret Conservation Center (Carr, CO, USA). Fecal samples (3x/week) were collected from November and December (pre-breeding season, no diet change), February through May (breeding season, diet change) and June (post-breeding season, diet change) and analyzed for fecal glucocorticoid metabolites (FGM) via a corticosterone enzyme immunoassay (EIA). A subset of samples from adult males (n = 15) were analyzed for fecal androgen metabolites (FAM) via a testosterone EIA. We first used a linear mixed effects model to identify the important fixed effects among meat treatment, vitamin E treatment, age class (juvenile or adult), and all possible interactions on each hormone. We then examined the important factor's effects across seasons using the non-parametric Friedman test. We found that age did not influence (p = 0.33) FGMs; however there was a significant effect of meat treatment on FGM (p = 0.04) and an effect of vitamin E on FAMs (p<0.10). When fed carcass, FGMs declined (p<0.001) from pre- to the during the breeding season time period, but was similar (p>0.05) between during and post-breeding season periods. Males that were not fed carcass had higher (p<0.05) FGMs during the breeding season compared to pre- and post-breeding season and FGMs were lower (p<0.05) in the post-breeding season compared to pre-breeding season. Males fed with carcass had lower (p<0.001) FGM than males that were not fed carcass during both the pre-breeding and the breeding season but not during the post-breeding season (p>0.05). Males supplemented with vitamin E had higher (p<0.001) FAM than non-supplemented males during the breeding season only. For both groups, FAM was highest (p<0.05) during the breeding season. In conclusion, adding carcass to the diet can reduce glucocorticoid production and adding vitamin E can increase testosterone during the breeding season, which may influence reproductive success.

Effect of dietary vitamin E and prey supplementation on semen quality in male black-footed ferrets (Mustela nigripes).

Over the recent years, the captive population of the endangered black-footed ferret (Mustela nigripes; ferret) has experienced a decline in normal sperm (NS) morphology (from 50% to 16%), which may be linked to inbreeding depression or it may have been a dietary change. We examined the role of dietary vitamin E, selenium (SE), and vitamin A on serum levels of vitamin E, SE, and vitamin A and semen quality. Ferrets (n = 55 males) were randomly assigned to one of five diet treatments (n = 11 per treatment): (1) horsemeat diet (control); (2) horsemeat diet + vitamin E (400 IU/kg Dry Matter) daily; (3) horsemeat diet + whole prey; (4) horsemeat diet + vitamin E daily + whole prey; and (5) beef diet. Both blood (prediet and postdiet change) and diets were analyzed for vitamin E, vitamin A, and SE concentrations. Electroejaculates were collected monthly and evaluated for sperm concentration, sperm motility index (includes percent motile and forward progression), and percent NS. Results reveal that the beef and horsemeat diets had comparable (P = 0.05) vitamin E and SE concentrations and all diets met most nutrient requirements for small carnivores; however, the horsemeat diet was excessive in vitamin A and the beef diet was deficient in vitamin A. Vitamin E supplementation increased (χ1(2)=25.83; P < 0.001) serum vitamin E. Ferrets fed the beef diet or prey had improved (H4 = 15.596; P = 0.004) sperm motility index than the horsemeat control group, and ferrets fed the horsemeat diet supplemented with vitamin E had the lowest (H4 = 18.408; P = 0.001) NS. In conclusion, the high levels of vitamin A in the horsemeat diet could compete with vitamin E as evidence by serum levels, which may reduce reproductive success in this endangered species.