Affiliation:
1. U.S. Fish and Wildlife Service Division of Biological Sciences Albuquerque New Mexico USA
2. U.S. Fish and Wildlife Service San Bernardino National Wildlife Refuge Douglas Arizona USA
3. Arizona Game and Fish Department Phoenix Arizona USA
4. U.S. Fish and Wildlife Service Southwestern Native Aquatic Resources and Recovery Center Dexter New Mexico USA
5. Department of Biology University of North Georgia Dahlonega Georgia USA
6. Center for Fisheries, Aquaculture and Aquatic Sciences Southern Illinois University Carbondale Carbondale Illinois USA
7. Department of Integrative Biology University of Guelph Guelph Ontario Canada
8. Arizona Game and Fish Department Tucson Arizona USA
Abstract
AbstractObjectiveThe Yaqui Catfish Ictalurus pricei, a species that is endemic to the southwestern United States and west‐central Chihuahua and Sonora, Mexico, is extinct in the United States and extremely endangered in Mexico due to habitat loss and hybridization with nonnative Channel Catfish I. punctatus. To re‐establish populations in the United States, a binational program consisting of broodstock collection, fish propagation, stocking, and poststocking monitoring is necessary. This programmatic approach is encapsulated within a Conservation Propagation and Stocking Program (CPSP), which documents important recovery actions, such as genetic management, fish culture, stocking, and poststocking assessments. The focus of our work is to identify the optimal stocking strategy for Yaqui Catfish, thereby informing the framework of a CPSP for the species' recovery.MethodsOur strategy involved simulating population growth using an age‐structured simulation model with varying stocking contribution rates, stocking densities, and stocking frequencies and incorporating these biological data with economic information within a utility function to quantify stocking costs.ResultThe optimal strategy requires releasing Yaqui Catfish at a density of 200 fish/ha every 5 years. This strategy excludes natural recruitment because historically, stocked Yaqui Catfish inhabited waters that were either too small or devoid of habitat to induce natural spawning. However, if larger waters or waters having appropriate habitats (e.g., interstitial spaces) are also stocked, it should increase natural recruitment, thereby (1) enabling populations to become self‐sustaining and (2) drastically reducing the reliance on hatcheries for stocking and salvage of declining populations.ConclusionOur results provide important stocking recommendations within a CPSP, emphasizing the need to build a broodstock before genetically pure Yaqui Catfish disappear. The successful implementation of the optimal stocking strategy requires multiple locations for stocking fish and is contingent on strengthening binational partnerships. This approach fills an important void in Yaqui Catfish reestablishment, helping to prime the successful recovery of this species.
Subject
Management, Monitoring, Policy and Law,Ecology,Aquatic Science,Ecology, Evolution, Behavior and Systematics