HFA300 Animal Breeding Plans
There may be changes to the course due to to corona restrictions. See Canvas and StudentWeb for info.
Showing course contents for the educational year 2021 - 2022 .
Course responsible: Peer Berg
Teachers: Bjørg Heringstad, Elise Norberg, Hans Magnus Gjøen, Theodorus Hendrikus Elisabeth Meuwissen
ECTS credits: 10
Faculty: Faculty of Biosciences
Teaching language: EN, NO
Teaching exam periods:
This course starts in Spring parallel. This course has teaching/evaluation in Spring parallel.
Course frequency: Annually
First time: 2004V
Predicting the effect of breeding schemes is an important prerequisite for optimisation of elements of a breeding scheme. This covers direct effects of selection on traits selected for, indirect effects on correlated traits and risk assessment relative to inbreeding and sustainability. The course focuses on understanding and application of methods for prediction of the effect of alternative breeding schemes, deterministic and stochastic simulation. In addition, formulation of breeding objectives, use of molecular genetic information, reproduction technologies, selection and mating strategies. The course will primarily focus on the elements of a deterministic model for prediction of of response to selection, based on understanding the elements of the model and on use of the model to compare alternative breeding schemes for pig, cattle, sheep, poultry and fish. Computer exercises will primarily be based on R.
Knowledge: Students will
- have advanced knowledge on the elements required to set up a successful breeding scheme.
- understand principles underlying the definition of breeding objectives
- be able to appply stochastic and deterministic methods for predicting effects of breeding schemes
- understand the effects of reproductive and genomic technologies.
- understand methods for maintaining genetic diversity in the presence of selection.
- be able to apply knowledge in optimization of breeding plans in the presence of genotype-environment interactions and breeding plans utilizing cross breeding.
- be able to analyse principles for dissemination of genetic progress
SKILLS: Students will be able to
- analyse breeding schemes and identify changes that would improve the breeding scheme.
- model specific breeding schemes and use methods to predict their effects.
- use stochastic and deterministic methods for predicting effects of breeding schemes.
- use methods for derivation of breeding obkectives.
- Critically evaluate scientific papers in the field of breeding schemes.
Students will be able to
- Model specific breeding schemes and predict their effects and quantify:
- consequences of alternative strategies on effects of breeding, response, correlated response and inbreeding.
- effect of alternative definitions of breeding objectives.
- recording of traits
- derivation of economic values in breeding goals, and calculation of economic gain from breeding.
- the importance of the structure of the production system for dissemination of genetic progress, including genotype-environment interactions and use of cross-breeding
- Present problems and solutions to optimization of breeding schemes
- Contribute to developing efficient breeding schemes
The course focuses on understanding and application of methods for predicting effects of alternative breeding schemes, using deterministic and stochastic simulation. This includes formulation of breeding objectives, use of molecular genetic information, reproduction technologies, selection and mating strategies. The course will build theoretical understanding by problem based teaching based on solving real challenges in livestock and fish populations.
In this course students will develop a more detailed understanding of the elements of breeding schemes and methods to optimize multiple objectives (e.g. maximizing genetic progress while limiting rates of inbreeding). Learning will be based on understanding real problems and identification of theory and methods to solve these.
Physical and on-line lectures, discussions, presentations, individual studies, and group exercises students , individual semester assignments, the use of models developed in the course and lectures
Physical and on-line lectures, discussions, presentations, individual studies, and group exercises. Problem oriented teaching med hand in of 3 to 4 compulsory reports.
Textbook for HFA200 or other basic course in breeding/quantitative genetics.
Distributed notes and scientific papers.
Scientific litterature and information about breeding programmes identified as relevant in the problem oriented teaching.
Breeding course. (HFA200 or AQB200.)
Practical breeding course. (HFA251, AQB270, or other courses containing animal breeding plans.)
Participation in group work and presentations. Submission of reports.
Special requirements in Science
Reduction of credits:
Type of course:
Lectures: ca. 20 hours. Colloqia: ca. 22 hours. Group and individual work: ca. 248 hours. Presentations of group work and individual assignments: 10 hours.
If there are less than 5 students, the lecturing routine will be altered.
Examination details: Oral exam: A - E / F