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AQS 224 Fish Breeding

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AQS 224 Fish Breeding

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1. Week Domestication, Genetic Improvement Practices in Aquaculture 2. Week Selective breeding / production in seafood

3. Week Theoretical Foundations of Cultivation and Selection 4. Week Breeding Programs

5. Week Strategies for Breeding

6. Week Selection and Mating Design Methods 7. Week Estimation of Breeding Values

8. Week Genotype and Environment Interaction 9. Week Calculating the Selection Response 10. Week Side Effects in Fish Breeding Practices 11. Week Biotechnology in Fish Farming

12. Week Reproduction Techniques in Fish Breeding 1 13. Week Reproduction Techniques in Fish Breeding 2 14. Week Economic Evaluation of Fish Farming

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11. Week

Biotechnology in Fish Farming

Linkage Maps

Quantitative Trait Loci (QTL)

Marker Assisted Selection

Other Applications of Genetic Markers

Gene Expression Data

Transgenics

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Reference

• Gjedrem, T., & Baranski, M. (2010). Selective breeding in

aquaculture: an introduction (Vol. 10). Springer Science &

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Benzer Belgeler

AQS 224 Fish Breeding

Week Domestication, Genetic Improvement Practices in Aquaculture.. Week Theoretical Foundations of Cultivation

AQS 224 Fish Breeding

• A combined selection and crossbreeding strategy called reciprocal recurrent selection (RRS) was developed by Comstock et al.. This design, described in detail by Falconer and

AQS 224 Fish Breeding

• The different selection methods that can be applied in a breeding program were used for aquatic species.. • Individual and family based selection are the most commonly used

AQS 224 Fish Breeding

• The purpose of a breeding program is to increase productivity of a population, which in real terms means the moving of the averages of economically important traits in a

AQS 224 Fish Breeding

Week Domestication, Genetic Improvement Practices in Aquaculture.. Week Theoretical Foundations of Cultivation

AQS 224 Fish Breeding

There are several important reasons for why a breeding program should implement methods for monitoring realised genetic gain: • To document the magnitude of genetic gain for each

AQS 224 Fish Breeding

• Advanced Breeding Programs (Mating & Hatching, Tagging, Recording During Grow-Out, Harvest and Pre-selection of Broodstock at. Breeding Stations, Final Selection of

AQS 224 Fish Breeding

• The addition of male hormone (17 α-methyl-testosterone) in first feeding produces close to 100% phenotypic males. • The addition of female hormone (diethylstilboestrol) in