Reproductive biology and stress of captivity in male brown treesnakes (Boiga irregularis) on Guam
Robert D. Aldridge A B and Anna A. Arackal AA Department of Biology, Saint Louis University, 3507 Laclede Avenue, St Louis, MO 63103-2010, USA.
B Corresponding author. Email: aldridge@slu.edu
Australian Journal of Zoology 53(4) 249-256 https://doi.org/10.1071/ZO05010
Submitted: 25 February 2005 Accepted: 22 June 2005 Published: 6 September 2005
Abstract
This study was designed to describe the reproductive biology of a sample of wild-caught brown treesnakes and to determine the effect of increased food intake (nutrition) on the development of the testis and sexual segment of the kidney, and on sperm storage in the vas deferens in captive males. The wild snakes were trapped and preserved within 24 h, in December 1999, from a snake trap-line in northern Guam. In the nutrition experiment adult snakes were matched for snout–vent length and separated into three groups. Groups 1 and 2 were fed a high-calorie diet for 8 and 4 weeks, respectively. Group 3 males, the control group, received a low-calorie diet and were preserved at 7 weeks. In the wild sample all snakes above 1035 mm snout–vent length were undergoing spermatogenesis, had a well developed sexual segment of the kidney, and had sperm stored in the vas deferens. In all experimental groups, spermatogenesis and development of the sexual segment of the kidney was terminated or inhibited, and in most snakes sperm were absent from the vas deferens. Blood levels of stress hormones (i.e. corticosterone) and reproductive hormones (androgens) were not measured. However, a previous study reported that the stress of captivity causes an increase in plasma levels of corticosterone in brown treesnakes, and other studies on squamates indicate that high corticosterone levels can disrupt reproductive hormones and shut down the reproductive cycle.
Acknowledgments
This project was funded by the National Biological Service to RDA and by the Undergraduate Research Award, Saint Louis University, to AAA. Animal Care Protocol 744 was approved through the Saint Louis University Animal Care Committee. We thank Mark Doles, Stan Kot, Gordon Rodda, Thomas Sharp and Gad Perry for field and laboratory assistance on Guam, and Blake Unterreiner, Jennifer Pawlik, Luke Wyrwich, Tim Schmalz and James (Mitch) Elmore for laboratory assistance at Saint Louis University. We thank William Stark for assistance with PhotoShop. We thank Tom Mathies and Gordon Rodda for comments on an earlier version of this manuscript.
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