HFA300 Animal Breeding and Conservation Plans
Credits (ECTS):15
Course responsible:Hans Magnus Gjøen
Campus / Online:Taught campus Ås
Teaching language:Engelsk
Limits of class size:The course requires at least 5 participants.
Course frequency:Annually
Nominal workload:325 hours
Teaching and exam period:This course starts in Spring parallel. This course has teaching/evaluation in Spring parallel and June block.
About this course
Learning outcome
Knowledge: Students can
- Explain differences between breeding and conservation schemes.
- Understand genetic contribution theory as a unifying theory of genetic progress and inbreeding.
- Know methods to model genetic effects, primarily using stochastic simulation.
- Understand advanced knowledge on the elements required to set up a successful breeding and conservation scheme.
- Understand principles underlying the definition of breeding objectives.
- Describe and model principles for dissemination of genetic progress.
- describe (i) methods to estimate (genomic) inbreeding and relationships, (ii) the evolution of inbreeding, relationships and genetic variances within and between (small) populations, (iii) methods for the management of inbreeding and genetic diversity in small populations.
SKILLS: Students will be able to
- Model simple breeding and conservation schemes to predict effects of these schemes on genetic progress and maintenance of genetic diversity, using stochastic and deterministic methods.
- Predict effects of existing and new reproductive and genomic technologies.
- Apply knowledge in optimization of breeding plans in the presence of genotype-environment interactions and breeding plans utilizing cross breeding.
- Analyse breeding and conservation schemes and identify changes that could improve these schemes.
- Describe methods for derivation of breeding objectives.
- Critically evaluate scientific papers in the field of animal breeding and conservation schemes.
- Estimate inbreeding and relationships and optimal genetic contributions using alternative sources of data, including genomic data.
General competences:
The students develop analytical approaches to the management of genetic progress and genetic diversity in small populations, derivation of breeding objectives, use of crossbreeding, effects of genotype-environment interactions, and dissemination of genetic progress. Unravel the contributions of inbreeding, (genomic) relationships and genetic variance to the total genetic diversity. The students should acquire sufficient knowledge to contribute to the management of breeding and conservation schemes across species.
- The course will use physical and on-line lectures, discussions, student presentations, individual and group exercises, individual project assignments, presentation and evaluations of scientific literature.
- Physical and on-line lectures, discussions, presentations, individual studies, and group exercises. Problem oriented teaching with compulsory hand ins and a final report.
Breeding course - HFA200
Prediction of breeding values - BIN301
- Oral exam
Oral exam Grading: Letter grades - External examiner.
- Participation in group work and presentations. Submission of reports.
- Lectures: ca. 40 hours. Colloqia: ca. 30 hours. Group and individual work: ca. 285 hours. Presentations of group work and individual assignments: 20 hours.
- Special requirements in Science