Multidisciplinary experimental project

Duration

6h Th, 6h Pr, 60h AUTR

Number of credits

Lecturer

Yves Brostaux, Pierre Delaplace, Sébastien Massart, Benoît Mercatoris, Arnaud Monty, Bernard Pochet

Coordinator

Benoît Mercatoris

Language(s) of instruction

French language

Organisation and examination

All year long, with partial in January

Schedule

Schedule online

Units courses prerequisite and corequisite

Prerequisite or corequisite units are presented within each program

Learning unit contents

This course highlights the project-based learning and leads the students to work in group in a non familiar scientific context. The groups are supervised by tutors and by the teacher team as well. The tutors are master students who follow learning of  the conduct of group work.
The objective of this course is to discover the job of a researcher by conducting a scientific research project in order to respond to a real and current problematic in the field of the plant physiology or of the ecology. The project is divided in different steps:
1) Be informed on the state of the art by mean of an extensive documentary research.
2) Understand the problematic.
3) Design and write an experimental protocol.
4) Analyse a priori the experiment from a point of view of quality.
5) Manage an experiment on plants.
6) Hold an experimental notebook.
7) Analyse the experimental results by means of appropriate statistical tools.
8) Write a report in the format of a scientific paper.

Learning outcomes of the learning unit

INTERMEDIATE LEVEL OF SKILLS:

• Design and model scientific and technical solutions, support decision.
• Research, summarise and analyse in a critical way the sources of information and the scientific and technical literature.
• Collect data, manage experiments and interpret results.
• Assume responsabilities within a community.

• Design original scientific and technical solutions.
• Analyse and summarise in a criticial way a preselected bibliography.

• Put into practice theoretical notions studied in other courses and acquire new knowledge by oneself.
• Collect and interpret scientific and technical information in a non familiar context.
• Access information in an autonomous way.
• Adopt an ethical and critical attitude to deal with different sources of information.
• Summarise the obtained information by respecting the basic rules of bibliographic citation.
• Design and write an experimental protocol.
• Criticise the obtained results by means of statistical tools and conclude on the research.
• Summarise the work in a scientific-quality report consistent with the standards of the academic scientific literature.
• Assume responsabilities within a team.
• Develop skills in team and project management.
• Communicate in an efficient way with colleagues and in a formal way in a scientific context.
• Read English articles of international scientific journals.
• Learn to solve a complex problem.

Prerequisite knowledge and skills

The course of Fundamental statistics is a pre-requisite.
The courses of Applied statistics, Plant physiology, General ecology and Quality management are co-requisites.

Planned learning activities and teaching methods

Project-based learning.
The concepts related to the scientific literature are firstly introduced by blended learning, i.e. a combination of individual learning and practical sessions.
Group activities are organised in order to report to tutors on project achievements and group evolution.

Mode of delivery (face-to-face ; distance-learning)

Face-to-face learning regarding the introduction of each step of the project.
The groups are working autonomously and coached by a team of student tutors coming from Master (Portfolio Guidance).
Compulsory face-to-face group activities are planned at key stages of the project.

Recommended or required readings

http://infolit.be/supports/index.php/Main/Livres
All the material is available via eCampus.

Assessment methods and criteria

The evaluation of the project consists of 3 parts:

• The deliverables of the first semester relating to the bibliographic research, the experimental protocol and the quality analysis are evaluated mid-way with a feedback at the beginning of the second period.
• The deliverables of the second semester, namely a report in the scientific article format, an experimental notebook and a notebook describing the group evolution, are evaluated at the end of the project.
• Unlike other courses (Applied Statistics, Quality Management, General Ecology and Plant Physiology), the content associated with the mastery of scientific information is not evaluated outside the project. As a consequence, in order to ensure that the resources taught during the course are acquired, an individual evaluation is organised via eCampus, in auditorium, during the second semester. If successful, the score of this assessment will be included in the calculation of the weighted average. In the event of failure, the score of the entire project will be limited to this individual assessment plus 2 out of 20 points (unless the project is in overall failure).

• In the event of one or more missing signatures at the end of the first semester, the group is called to identify problems and find ways to improve. Sanctions may be taken for extreme cases.
• In the event of one or more missing signatures at the end of the second semester, the group is convened by the teaching team to identify the imbalances. A 50% decrease in the final score will be applied individually depending on the identified shortcomings. In extreme cases, an exclusion note may be applied.

Work placement(s)

Organizational remarks

In order to respect the project philosophy, the groups will be formed randomly.

Contacts

Please contact the teachers according to their expertise.
Teaching method: C. COLAUX (catherine.colaux@ulg.ac.be)
Scientific literature: B. POCHET (bernard.pochet@ulg.ac.be)
Statistics: Y. BROSTAUX (y.brostaux@ulg.ac.be)
Plant physiology: P. DELAPLACE (pierre.delaplace@ulg.ac.be)
General ecology: A. MONTY (arnaud.monty@ulg.ac.be)
Quality management : S. MASSART (sebastien.massart@ulg.ac.be)
Organisation : B. MERCATORIS (benoit.mercatoris@ulg.ac.be)

Adaptation of teaching commitments following the COVID-19 pandemic for the May-June 2020 session

Teaching methods implemented : distance-learning

The groups continue their work in autonomy, except for the follow-up of the greenhouse experiments, which is made impossible by public health measures.
Two experiments with different protocols were kept and managed by the teachers. The protocols as well as the data collected on the two experiments are transmitted to each group for interpretation and comparison.

Assessment subjects

The expected deliverables remain the scientific article and the electronic experimental notebook.
The article integrates now the protocols related to the two preserved experiments and the analyses of the associated results.
The experimental notebook is limited to the implementation and monitoring before mid-March.
The concepts in the scientific literature studied on line remain subject to evaluation.

Assessment methods

The deadline for deliverables is maintained.
The test on scientific literature initially planned online in classroom is also maintained, still via eCampus, but only remotely.
Practical details are communicated on the eCampus page of the course.

Contacts

The forum remains open.
In case of problem, contact Prof. B. Mercatoris via benoit.mercatoris@uliege.be
 

Adaptation of teaching commitments following the COVID-19 pandemic for the Aug-Sept 2020 session

Assessment subjects

Assessment methods

In the case of a second session, the evaluation will be determined by the teaching team, individually, on a case-by-case basis, in function of the identified weaknesses.
Contact Prof. B. Mercatoris via benoit.mercatoris@uliege.be

Contacts

In case of a second session, contact Prof. B. Mercatoris via benoit.mercatoris@uliege.be