|Teaching method||Contact hours|
|Course coordinator(s)||dr. ir. HA Mulder|
|Lecturer(s)||dr. ir. HA Mulder|
|prof. dr. ir. H Bovenhuis|
|ir. DE Lont|
|Examiner(s)||dr. ir. HA Mulder|
Language of instruction:
Assumed knowledge on:
ABG-20306, knowledge on matrix algebra, basic stastistics such as variance, covariance, correlation, regression
By lectures, discussion meetings, excursions and practicals (including ICT) this course will provide advanced knowledge on genetic improvement schemes in livestock and companion animals. The advanced knowledge includes theory on breeding goal definition, breeding value estimation and selection and mating systems. Emphasis is on underlying genetic models and prediction and evaluation of genetic and inbreeding trends.
After successful completion of this course students are expected to be able to:
- derive multiple trait selection indices and the corresponding accuracy of selection for simple situations;
- derive breeding goals based on information on economic and societal properties of the production system;
- understand and set-up mixed model equations to estimate breeding values in small data sets;
- explain the underlying principles of genomic selection and its consequences for the structure of breeding programs;
- predict the rate of genetic improvement of alternative breeding programs;
- understand and discuss the consequences of different structures of breeding programs on the response to selection and the rate of inbreeding;
- explain and quantify the effect of selection on the genetic variance (Bulmer effect).
- guest lectures;
- case study: develop your own breeding program.
Attendance to practicals is obligatory and allows participation in the written exam.
The final mark for the course is based on the exam and case study.
Lecture notes, practicals; study guide.
Information will be provided in Brightspace.
|Restricted Optional for:||MAS||Animal Sciences||MSc||A: Spec. A - Genetics and Biodiversity||2MO|