The course is the second course in the NOVA PhD course series "Phenotyping Technologies in Plant-environment Interactions" which is scheduled for 2018-2021:
- 2018: Integrated Analysis of Omics Data
Swedish University of Agricultural Sciences
- 2019: Image Based Phenotyping
University of Helsinki, Faculty of Agriculture and Forestry
- 2020: High Throughput Field Phenotyping
Norwegian University of Life Sciences
- 2021: Omics Technologies in Phenotyping
Agricultural University of Iceland
The changing climate demands developing faster breeding methods to provide effective solutions for the future agriculture. This course series aims to introduce the emerging research fields of high throughput plant phenotyping used for plant-environment interactions from highly controlled environments to field conditions, in combination with omics technologies including bioinformatics and R-computing.
The course series aims to introduce the emerging technologies related to i) controlled environments that allow simulations and testing future climatic conditions, ii) automated and image based plant phenotyping technologies that are to remove bottlenecks in between genotype to phenotype screens, iii) high throughput field phenotyping technologies and iv) bioinformatics and R-computing that are required for the deeper understanding of the molecular networks. The objective of the course series is to provide the participating students with the basic knowledge and understanding of the emerging fields of plant phenomics and data processing that can serve breeding efforts in modern agriculture.
- Image based phenotyping (hyper-and-multispectral imaging)
- Field crop phenotyping (drones and image processing)
- Phenotyping in controlled environments (NaPPI experiments)
- Integrated Omics analysis (phenomics-to-metabolomics)
- PAM chlorophyll fluorescence detection for physiology and stress responses
- Phenotyping for field crop breeding
Pre; phenotyping experiment online, literature review for journal club
Post; learning diaries based on lectures, drafting a research plan, course reports
Participation in lectures and daily learning diaries (2 ECTS)
- knowledge about the crop physiology in greenhouse context and management methods
- knowledge about the whole range of analysis sensors available for plant phenotyping
- gaining understanding of the opportunities and challenges in experimental design in plant phenotyping
Participation in the workshops (1 ECTS)
- gaining hands on experience in plant-environment treatments, image based data acquisition, and molecular omics technologies, and data processing
Literature study, presentation and a research plan as pre and post assignments (2 ECTS)
- gaining deeper understanding of the chosen biological process and chosen technology through own study
- application of gained knowledge in the research plan
Active participation in assignments and workshops, presentation, submission of learning diaries and post-assignments (research plan).
Student activation by introductory pre-course assignments, in depth scientific lectures, hands-on experience during work shops and post-course assignments that allow application of the gained knowledge.
- 15 hours seminar
- 15 hours lecture
- 90 hours independent work
- 30 hours other
MSc degree in a relevant field is required. Relevant fields: agriculture, biological and environmental sciences.
Admission for NOVA courses is handled by the course organiser/ the NOVA member institution organising the course. Please see the links in the margin for more information.
There is no course fee for students attending this course. Other participants as teachers/researchers and participants from the industry can be charged a course fee.
Meal costs for all non-NOVA/non-BOVA participants: €120
Housing: around €60/night
Please find flight costs online.