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Environment influences morphology and development for in situ and ex situ populations of the black-footed ferret (Mustela nigripes)

Published online by Cambridge University Press:  26 August 2005

Samantha M. Wisely
Affiliation:
Division of Biology, Kansas State University, Manhattan, Kansas 66506, USA
Rachel M. Santymire
Affiliation:
Department of Reproductive Sciences, Conservation & Research Center, Smithsonian's National Zoological Park, Front Royal, Virginia 22630, USA
Travis M. Livieri
Affiliation:
Prairie Wildlife Research, Wall, South Dakota 57790, USA
Paul E. Marinari
Affiliation:
National Black-Footed Ferret Conservation Center, U.S. Fish & Wildlife Service, Laramie, Wyoming 82070, USA
Julie S. Kreeger
Affiliation:
National Black-Footed Ferret Conservation Center, U.S. Fish & Wildlife Service, Laramie, Wyoming 82070, USA
David E. Wildt
Affiliation:
Department of Reproductive Sciences, Conservation & Research Center, Smithsonian's National Zoological Park, Front Royal, Virginia 22630, USA
JoGayle Howard
Affiliation:
Department of Reproductive Sciences, Conservation & Research Center, Smithsonian's National Zoological Park, Washington, District of Columbia 20008, USA
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Abstract

For selected species, conservation breeding has become integrated into recovery plans, most often through the production of offspring for reintroduction into nature. As these programs increase in size and scope, it is imperative that conservation managers retain the biological integrity of the species. This study investigated the causes of morphological changes that are known to occur in black-footed ferrets (Mustela nigripes) maintained ex situ. In a previous study, ferrets maintained in captivity were 5–10% smaller in body size than pre-captive, in situ animals. In the present study, the authors compared nine morphological characters among ex situ animals and their in situ descendants. Within the ex situ population, cage types were compared to determine whether housing influenced morphometry. Black-footed ferrets born to reintroduced individuals quickly returned to their pre-captive size suggesting that a diminutive morphology ex situ did not have a genetic basis. Furthermore, cage type affected overall body size and shape; ulnas and tibias were as much as 9% shorter for ex situ animals. The authors hypothesise that small cage size and environmental homogeneity inhibit the mechanical stimuli necessary for long bone development. These findings have ramifications for ex situ managers who need to create artificial captive settings that promote natural physical development. In the absence of such an environment, ‘unnatural’ morphologies can result that may contribute to poor fitness or perhaps even domestication.

Type
Research Article
Copyright
2005 The Zoological Society of London

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