Our History

1988

It started with GIFT

The GenoMar-strain originates from an internationally collaborative selective breeding program, Genetically Improved Farmed Tilapia (GIFT), coordinated by the International Center for Living Aquatic Resources Management (ICLARM, now the World Fish Center) in cooperation with Norwegian and Philippine partners. The GIFT-strain was made from eight different populations of Nile tilapia collected from Africa and Asia and established in Munoz, Philippines. The GIFT-project which lasted in the period 1988-1997 was funded by the Asian Development Bank, the United Nations, and ICLARM. Scientifically breeding methods, a combination of between family and within-family selection with full pedigree information were used from the very beginning. The goal was to use the potential of selective breeding to increase important traits like growth rates, maturation and fecundity, and hardiness adapted to different environmental farming conditions.

1988
1996

GenoMar was founded

Professor Ƙystein Lie and coworkers founded GenoMar with commercial focus on DNA-marker based parentage assisted breeding and traceability. The company was headquartered in Oslo, Norway.

1996
1999

GenoMar acquired a copy of the ninth generation

Based on an agreement with the owner of the GIFT-strain, GIFT Foundation International, GenoMar acquired a copy of the ninth generation of the GIFT-strain. The company was given the commercial rights and the responsibility to continue the breeding program of the GIFT-strain copy. The strain was now named under the brand GenoMar Supreme Tilapia (GST). After nine generations of selective breeding, a test showed that the growth of the GIFT- strain was more than twice as fast compared to a local commercial strain in China.

1999
2000

DNA information used in the breeding program

To produce the accurate family relationships, GenoMar initiated to use the DNA information (microsatellite markers) to identify the parents and family in the Nile tilapia breeding program.

2000
2015

Development of high-density genotyping tool

GenoMar and the Center for Integrative Genetics (CIGENE) signed a collaboration agreement for the development and application of a genotyping tool, a high-density SNP array for Nile tilapia. This tool opens to use genetic information to select for many favorable traits.

2015
2016

First commercial high-density genotyping tool used for streptococcosis resistance

GenoMar developed the first commercial tilapia genotyping tool, a high-density SNP array. We revealed more than 2 million places in the tilapia genome where fish differ from each other at a single nucleotide (single nucleotide polymorphism or SNP). Around 58 000 of those SNPs were used to construct the first SNP array. Resistance against streptococcosis was implemented as a goal in the GenoMar breeding program. Since then, routinely experimental challenge tests against S. agalactiae have been performed and formed the basis for selection of families and individuals with better survival.

2016
2017

EW GROUP acquires GenoMar

EW GROUP acquires 100% of the shares of GenoMar Genetics from Norway Fresh. EW GROUP is a strategic holding company based in Germany. The activities of EW GROUP are comprised of the business areas of poultry/turkey and aqua species breeding, as well as animal health, nutrition and diagnostics. EW GROUP operates more than 200 subsidiaries in 45 countries worldwide, employing over 19,000 team members.

2017
2019

Genomic selection fully implemented

Genomic selection was included in the breeding program. Several thousandā€Æof fish are genotyped every year andā€Ægenetic markers associated with favorable traits are used for selectingā€Æthe bestā€Æbroodstock. Compared with family-basedā€Æselection, genomic selection is moreā€Æprecise on individual fish,ā€Æ andā€Æprovides enhanced genetic gains. Since the genetic profile and the functions are better known, a vast number of tests on physical traits of relatives are not necessary to do.

2019
2021

30 years of tilapia breeding

30 generations of tilapia selection with science-based methods were performed in the nucleus. This is counted back from 1991 when family-based selection was incorporated. Read more here

2021
2022

Specific Pathogen Free certification granted

The breeding nucleus facility located at the Central Luzon State University in the Philippines received the world’s first Specific Pathogen Free certification for tilapia.The disease-free status covers the most significant viral pathogens in tilapia aquaculture worldwide: TiLV (Tilapia Lake Virus disease), VER (Viral Encephalopathy and Retinopathy, also known as VNN) and Megalocytovirus (Iridoviral disease).

2022
2022

The Breeding and Genetics Centre in Brazil officially opened

The second tilapia nucleus in GenoMar, located in Monte do Carmo, Tocantins, Brazil was officially opened. It will have sufficient capacity to manage GenoMarĀ“s breeding programs as well as to produce parent stock for its distribution operations and the further delivery of genetically improved fingerlings to customers in Brazil, Latin America, and the world. The breeding centre has a high biosecurity level and an effective surveillance program for the most important tilapia pathogens worldwide. The facility has an accredited quarantine department certified by the Ministry of Agriculture (MAPA) in Brazil that fulfills the government requirements to undertake a period of quarantine with any fish being imported or exported from the site.

2022
2022

Enhancing performance through line breeding

Line breeding was introduced in our breeding nucleus from generation 31, drawing inspiration from proven strategies in the poultry industry. We developed multiple breeding lines based on the relationship between traits, global market and product strategies. Each line operates under its own breeding program, emphasizing specific genomically selected traits. Crossing two lines with different traits makes a well-rounded product that satisfies multiple criteria, including growth, feed efficiency, disease resistance, and overall robustness.

With this method the commercial fingerlings are not only expected to increase the performance, but are also anticipated to display hybrid vigor (heterosis), enhancing overall productivity compared to the parental lines. This is aĀ crossbred advantage, which highlights the positive effect of mixing diverse genes.

2022
2024

Upgraded genotyping tool

The genotyping tool (SNP array) with around 58,000 SNP markers, used since 2016 was upgraded to 70,000 SNP markers. With more tailored SNPs (Single Nucleotide Polymorphisms) the precision in the selection of parent stock will increase and boost the favourable traits that are linked to the SNPs in the offspring. This high-density SNP array enables robust genomic selection across all traits, delivering a fast-growing, resilient tilapia, ultimately benefiting farmers with superior products.

2024

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