Improvement of Male Fertility by Long-Term Beta-Carotene Supplementation in White Rhinoceroses (Ceratotherium simum)
Robert Hermes1, Dr.; Frank Goeritz1, Dr.; Christian Walzer1, Dr.; Steffen Blottner1, Dr.; Sandra Siliniski2, med vet; Franz Schwarzenberger3, Prof., Dr.; Wolfgang Joechle4, Prof, Dr.; Michael Cordes5, Dr.; Thomas B. Hildebrandt1, Dr.
1Institute for Zoo and Wildlife Research, Berlin, Germany; 2SalzburgZoo, Hellbrunn, Salzburg, Austria; 3University of Veterinary Medicine, Institute for Biochemistry, Vienna, Austria; 4Wolfgang Joechle Associates Inc., Denville, NJ, USA; 5Salvana Tiernahrung GmbH, Sparrieshoop, Germany
Abstract
Substantial knowledge on the reproductive physiology of the female white rhinoceros (Ceratotherium simum) has been gathered over the past years. However, little emphasis has been put on the evaluation of male fertility as a possible contributing factor to the demographic crisis of the captive population considering that 81% of male captive white rhinoceros have not sired offspring. Objective of this study was the reproductive assessment of male white rhinoceros to determine their semen characteristics. Ultrasound and electroejaculation were conducted in 20 anesthetized white rhinoceros, which had not sired offspring. Electroejaculation represented a semen collection method, which allowed a repeatable semen assessment applicable to the different management systems and training standards. Semen quality was evaluated on the basis of one to four semen samples collected during this 4-yr study. Fifty percent of the males examined showed suboptimal and inconsistent semen characteristics. Social stress and vitamin A insufficiency were discussed as potential causes for the reduced semen quality. Beta-carotene supplementation used in the stallion and boar has shown to improve semen characteristics. In a preliminary study, one single housed individual was supplemented with 1,200 mg/day beta-carotene over period of 14 mo. Beta carotene improved sperm motility from presupplementary 50–80% after supplementation. From the large proportion of intermittent and infertile males assessed in this study, increased efforts should be made to improve breeding fitness of nonrepresented male white rhinoceros. Dietary beta-carotene supplementation may represent an easy-to-apply measure to improve spermatogenesis and fertility in the white rhinoceros.