Developing Sustainable Aquaculture for Coastal and Tilapia Systems in the Americas

CRSP:   |  Region:   |  Topic:   |  Database:
Details

Project Code:
Not Available

Start Date:
2007

End Date:
2013/03/31

CRSP Phase:
Phase 1

Budget:
Not Available

Countries:
,

Participants

Lead University:

Other Partners:
Texas Tech University, American Soybean Association, Cornell University, Delaware State University,Oregon State University, Texas Parks & Wildlife Department,United Animal Feed Producers, United Cooperative of Fishermen, University of Texas,Texas A&M University (US); Department of Fisheries, Guyana, National Aquaculture Association of Guyana (NAAG), (USAID)/GTIS Programme, Guyana,Von Better Aquaculture (Guyana); Zamorano University (Honduras); WorldFish Center (ICLARM) (Malaysia); San Carlos University (Guatemala); Instituto Sinaloense de Acuacultura, Mazatlan, Mexico; Maharaja Oil Mill, Guyana; Mariano Matamoros Hatchery, Teapa, Tabasco, Universidad Juarez Autonoma de Tabasco, Universidad Autonoma de Tamaulipas (Mexico); Egyptian Society of Agribusiness, Ministry of Agriculture & Land Reclamation, Academy of Scientific Research & Egyptian Universities (Egypt); BIOTECMAR (Venezuela); American University of Beirut (Lebanon); US-Mexico Aquaculture TIES Program

Principal Investigator(s):
Kevin Fitzsimmons (US Lead Project PI); Wilfrido Contreras-Sanchez (Host Country Lead PI; Mexico)

Co-Principal Investigator(s):
Reynaldo Patino (US); Pamila Ramotar (Guyana); Pablo Gonzalez-alanis (Mexico)

Overview

This project addressed several critical issues of special concern to aquaculture producers in Mexico and Guyana. One is the use of locally produced protein sources for the replacement of fishmeal in tilapia, pacu and shrimp diets. Another is the management of YY supermale and GIFT strain tilapia stocks. In both cases the project will assist by providing nucleus breeding centers and support for pedigreed selective breeding programs. We will also evaluate these strains with others already available to local growers. To be clear, we will not be involved with introductions of new species. In fact, we will not even be involved with the importations of new strains. The Mexican and Guyana governments have already started the imports. We will assist to document the impacts and train staff on hatchery techniques and how to maintain pedigree records. It should be remembered that Nile Tilapia is already a significant industry in both countries and their surrounding neighbor countries. In fact in Mexico, Nile tilapia represents a $300,000,000 annual industry producing 100,000 metric tons of fish for domestic consumption, with registered farms in every state in Mexico. The YY supermale Nile tilapia that are genetically male are much less likely to become established in the wild, compared to precociously spawning Nile tilapia that are mixed sex populations.

Related AquaFish investigations include: 09TAP01UA, 09SFT03UA, 09QSD02UA, 09IND05UA, 07BMA03UA, 07SFT04UA, 07IND01UA, 07MNE06UA, 07IND02UA, 07HHI02UA, 07SFT05UA, 07TAP03UA

Objectives

Coming soon

Outcomes

Mexico: - Methyltestosterone (MT) is a strong androgen widely used for tilapia masculinization. To descrease risks to humans and the environment associated with residual MT researchers isolated two bacterial strains that effectively remove residual MT from hatchery water effluent and coordinated with industry partners to scale up this technology for commercial adoption.

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