Long-term evaluation of male Florida panther (Puma concolor coryi) reproductive parameters following genetic introgression

Author:

Penfold Linda M1ORCID,Criffield Marc2,Cunningham Mark W3,Jansen Deborah4,Lotz Mark5,Shea Colin6,Onorato Dave2ORCID

Affiliation:

1. South-East Zoo Alliance for Reproduction & Conservation/White Oak Conservation Center , 581705 White Oak Road, Yulee, Florida 32097 , USA

2. Fish and Wildlife Research Institute, Florida Fish and Wildlife Conservation Commission , 298 Sabal Palm Road, Naples, Florida 34114 , USA

3. Fish and Wildlife Research Institute, Florida Fish and Wildlife Conservation Commission , 1105 SW Williston Road, Gainesville, Florida 32601 , USA

4. Resource Management Division, Big Cypress National Preserve, National Park Service , 33100 Tamiami Trail East, Ochopee, Florida 34141 , USA

5. Division of Habitat and Species Conservation, Florida Fish and Wildlife Conservation Commission , 298 Sabal Palm Road, Naples, Florida 34114 , USA

6. Fish and Wildlife Research Institute, Florida Fish and Wildlife Conservation Commission , 100 8th Avenue SE, St. Petersburg, Florida 33701 , USA

Abstract

Abstract In 1995, eight female pumas from Texas (Puma concolor stanleyana) were introduced into five areas in South Florida to remediate morphological and biomedical correlates of inbreeding depression that threatened the long-term survival of Florida panthers (P. c. coryi). Initial analysis of the results of this genetic introgression initiative has highlighted its success, including growth of the population, increased genetic heterozygosity, and reduced frequencies of physical traits associated with inbreeding, including cryptorchidism. However, panthers remain isolated from other puma populations and natural gene flow is not currently plausible. Using data collected from 65 panthers in the post-genetic introgression era (1998–2020), we assessed the benefits accrued to male panther reproductive parameters via this management initiative, the effect of genetic variables, and compared results to historic data. Microsatellite data were used to determine individual heterozygosity levels and qualify panther genetic ancestry as admixed (i.e., panthers descended from crosses with female Texas puma) or canonical (i.e., panthers that comprised most of the population prior to genetic introgression). A total of 47 admixed and 10 canonical panthers were identified; mean individual heterozygosity of canonical panthers (0.39) was significantly different from admixed panthers (0.63; t54 = 4.7, P-value < 0.001). Admixed panthers exhibited higher mean values for total testicular volume, structurally normal spermatozoa, and total sperm in comparison to canonical panthers. The progressive improvement of sperm metrics demonstrates that the benefits of genetic introgression continue to have a positive impact on the population >25 years since the release of the Texas pumas. However, the Florida panther population remains small, isolated, and vulnerable to deterministic and stochastic events that warrants continued monitoring to assess when additional genetic introgression initiatives will need to be implemented in the future.

Funder

Florida Panther Research and Management Trust Fund

Publisher

Oxford University Press (OUP)

Subject

Nature and Landscape Conservation,Genetics,Animal Science and Zoology,Ecology,Ecology, Evolution, Behavior and Systematics

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