From 2 November 2020, the autumn semester 2020 will take place online. Exceptions: Courses that can only be carried out with on-site presence.
Please note the information provided by the lecturers via e-mail.

Bruno Studer: Catalogue data in Spring Semester 2015

Name Prof. Dr. Bruno Studer
FieldForage Crop Genetics
Molekulare Pflanzenzüchtung
ETH Zürich, LFW A 3
Universitätstrasse 2
8092 Zürich
Telephone+41 44 632 01 57
DepartmentEnvironmental Systems Science
RelationshipAssociate Professor

751-3604-00LPlant Breeding
Does not take place this semester.
3 credits3GA. Hund, B. Boller, C. Grieder, R. Kölliker, B. Studer
AbstractSuccessful plant breeding requires knowledge of genetics, the methods to detect genetic variation and to utilize it for selection. The course builds on the course "Pflanzengenetik" and illustrates these basics by means of exercises and practical examples. This will be complemented by lessons in molecular breeding and latest developments in genotyping and phenotyping.
ObjectiveAt the end of the course you will be able to design, assess and analyze variety test experiments. You will have basic knowledge on phenotyping and genotyping technologies, and know how to connect this information for quantitative trait loci (QTL) mapping and association analysis. Furthermore, you will be able to assess relationships among genotypes by means of multivariate statistics (e.g. cluster analysis) using genetic and phenotypic information.
ContentThe course is organized in the following three modules:
Module 1: Phenotyping of plant breeding experiments in the field phenotyping platform (FIP) at Eschikon Field Station.
Module 2: Statistical evaluation of the assessed data in R
Module 3: Molecular breeding
The course will be held at Eschikon Field Station, where 12 computers will be available for exercises with R.
We will observe the development of crops planted in the unique filed phenotyping platform. The field part includes two full days (July 02/03) during the summer semester break. The dates are chosen to allow you assessing buckwheat and wheat plants at stages of development, when meaningful measurements can be taken. In case somebody can't attend the course at these two days for justified reasons, we will seek for an alternative exercise.
During the course, we will have a closer look at wheat and buckwheat.
In wheat, we aim to teach the basic skills of phenotyping of plant development. You will assess the development using the simple scoring method, to train your breeder's eyes. Furtheremore, you will use sensors and indices used in the novel Field Phenotyping Platform (FIP), such as normalized difference vegetation index (NDVI), thermography and multispectral sensing. At the end of the course you will be able to judge the advantages of the "NDV-eye" vs. your Breeder's eye.
With Buckwheat we aim to establish a breeding program at ETH which is mainly operated by students. Here we need your enthusiasm, experience and input in order to succeed. You will score different traits of agronomic importance during the field day in summer. At the end of the course you should be able to pick the best varieties to make crosses for a planned breeding program organized by you and your fellow students of subsequent semesters.
In the statistical part of the course (module 2), you will learn how to process your data using the statistic package R and ASREML-R. For example, you will use the data assessed in module 1 to calculate heritabilities by means of analysis of variance. This part requires a basic understanding of R as taught in "Experimental Design and Applied Statistics in Agroecosystem Science" as well as of quantitative genetics as taught in "Pflanzengenetik". However these courses are not mandatory to enroll in plant breeding.
In the third module, you will learn about the genetic toolbox that is available for molecular breeding. Starting with the latest developments in DNA marker and genotyping technologies, the basic principles of genetic linkage mapping and QTL analysis will be illustrated. Novel breeding concepts such as genomic selection or breeding by design will be explained, discussed and evaluated for their potential to accelerate breeding progress in different crop species.
Prerequisites / NoticeYou need a Basic understanding of R as taught in "Experimental Design and Applied Statistics in Agroecosystem Science" as well as quantitative genetics as taught in "Pflanzengenetik". However these courses are not mandatory to enroll in plant breeding.
751-3606-00LMolecular Plant Breeding3 credits2GB. Studer, C. Grieder, A. Hund, R. Kölliker
AbstractMolecular tools have contributed significantly to improve the process of plant breeding throughout the last decades. The course Molecular Plant Breeding illustrates - on the basis of lectures, exercises and practical examples - the most important molecular breeding tools (QTL, association studies..) and how these tools are applied to plant breeding by means of marker-assisted or genomic selection.
ObjectiveAt the end of the course Molecular Plant Breeding you will be able to:
- design and statistically analyze genetic experiments for important characteristics such as repeatability, heritability, or least square means
- understand different molecular marker technologies and genotyping methods, and how the generated data can be used for genetic distance measures and multivariate statistics in experimental and natural populations
- use the most important molecular breeding tools such as genetic linkage mapping, QTL analysis, genome-wide association studies and to apply these tools to plant breeding by marker-assisted and genomic selection
- describe different sequencing technologies and strategies for genome sequencing, transcriptome profiling (RNAseq) and genotyping by sequencing
- apply basic bioinformatics tools for sequence data management and comparative genomics (BLAST, simple assemblies, alignments and gene annotations)
ContentThe course Molecular Plant Breeding is based on complementing lectures, exercises and practical examples. The examples cover a wide range of species and traits and will be taught by four different experts in the field. A detailed program including dates and specific contents will be provided by the end of 2014.
Lecture notesScripts and slides for each lecture and will be made available through eDoz.
LiteratureFor each lecture, additional literature covering the topic will be provided.
Prerequisites / NoticeThe course will be held at Eschikon Field Station, where 12 computers will be available for exercises with R or - if necessary - other specific software packages. Attendance of the courses Pflanzenzüchtung and Plant Breeding II is recommended; basic understanding of R (as taught in Experimental Design and Applied Statistics in Agroecosystem Science) is advantageous.
760-2210-00LColloquium in Plant Science
Does not take place this semester.
0 credits1KW. Gruissem, N. Buchmann, C. De Moraes, E. Frossard, B. Studer, O. Voinnet, A. Walter, S. C. Zeeman