Photosynthesis

6 EC

Semester 1, period 1

5092PHOT6Y

Owner Bachelor Natuur- en Sterrenkunde (joint degree)
Coordinator R. Croce
Part of Minor Natuurkunde en Sterrenkunde, year 1Minor Physics and Astronomy: Energy and Sustainability, year 1Minor Physics and Astronomy: Physics of Life, year 1Exchange Program Faculty of Science, specialisation BSc Chemistry, year 1Bachelor Physics and Astronomy (Joint Degree), year 3Bachelor Chemistry (Joint Degree), year 3

Course manual 2018/2019

Course content

Photosynthesis is the process that sustains virtually all life on Earth. In this process organisms capture and store the energy of the photons in the form of carbohydrates. In this course you will follow all the steps of the photosynthetic process at the molecular level. The course will cover: light-harvesting, excitation energy transfer, electron transport, photophosphorylation and mechanism of carbon dioxide fixation. We will get inspiration by the diversity of the photosynthetic process in different organisms and study the strategies used by them to respond to changes in their environment. The use of photosynthesis for bioenergy production will also be discussed.

Study materials

Literature

  • Robert E. Blankenship, 'Molecular Mechanisms of Photosynthesis', 2nd Edition, April 2014, Wiley-BlackwellISBN: 978-1-4051-8976-7. Ca. 56 Euro.

Objectives

  • To understand the principle of sunlight to energy conversion in nature
  • To apply concepts of physics and physical chemistry conceptually learned in  other courses
  • To become familiar with the physical, chemical and biological concepts that are on the basis of photosynthesis
  • To learn how to integrate concepts from physics, chemistry, and biology
  • To be able to understand and discuss scientific literature based on multidisciplinary approaches
  • To use these concepts for biofuel production.

Teaching methods

  • Hoorcollege
  • Werkcollege
  • literatuurbespreking
  • Begeleiding/feedbackmoment
  • Zelfstandig werken aan bijv. project/scriptie
  • Zelfstudie

Learning activities

Activiteit

Aantal uur

Hoorcollege

28

Tentamen

3

Werkcollege

24

Zelfstudie

112

Attendance

Programme's requirements concerning attendance (OER-B):

  • Each student is expected to participate actively in each component of the programme that he/she signed up for. A student that does not attend the first two seminars of a course, will be administratively removed from the seminar group. A request for reregistration for the seminars can be applied to the programme coordinator.
  • If a student cannot attend an obligatory component of a programme's component due to circumstances beyond his control, he must report in writing to the relevant teacher as soon as possible. The teacher, if necessary after consulting the study adviser, may decide to issue the student a replacing assignment.
  • It is not allowed to miss obligatory commponents of the programme if there is no case of circumstances beyond one's control.
  • In case of participating qualitatively or quantitatively insufficiently, the examiner can expel a student from further participation in the programme's component or a part of that component. Conditions for sufficient participation are set down in advance in the course manual.
  • In addition to the above mentioned rules, in the first semester of the first year a student should be present in at least 80% of the seminars. Moreover, participation to midterm tests and obligatory homework is required. If the student does not comply with these obligations, the student is expelled from the resit of this course. Students in the double Bachelor's degree programme Mathematics and Physics are exempted from this requirement. In case of personal circumstances, as described in OER-A Article 6.4, a different study plan will be made in consultation with the study advisor.

Assessment

Item and weight Details

Final grade

0.7 (70%)

Tentamen

0.3 (30%)

Assigments

Inspection of assessed work

For the assignments, I write to each student individually sending the assignment with my comments and the grade

Assignments

1

  • Paper 1

2

  • Paper 2

3

  • paper 3

4

  • Report - improving photosynthesis

 

 all the assignments have to be made individually

Fraud and plagiarism

The 'Regulations governing fraud and plagiarism for UvA students' applies to this course. This will be monitored carefully. Upon suspicion of fraud or plagiarism the Examinations Board of the programme will be informed. For the 'Regulations governing fraud and plagiarism for UvA students' see: www.student.uva.nl

Course structure

Weeknummer Onderwerpen Studiestof
1  Introduction  chapter 1-2
2 History  chapter 3
3  Pigments/Antenna  chapter 4/5
4  Antennas  chapter 5
5  electron transfer  chapter 6-7
6  ATP/dark reactions  chapter 8-9
7  Fluorescence/ evolution  chapter 11-12
8    

Timetable

The schedule for this course is published on DataNose.

Processed course evaluations

Below you will find the adjustments in the course design in response to the course evaluations.

Contact information

Coordinator

  • R. Croce