NNMK14006U Plant animal interactions. An evolutionary approach.
A survey of the role of plant-animal interactions in the evolution of biodiversity, either by antagonistic means, including herbivory and seed predation, and their subsequent physiological and chemical arms race, or mutualistic ones, including pollination, seed dispersal and plant protection.
The course will cover the following subjects from an evolutionary approach and use examples from recent and ongoing research:
- Antagonistic and mutualistic types of plant-animal interactions.
- Generalisation vs. specialization.
- Evolutionary approaches to study plant-animal interaction.
- Herbivory and grazing from both plants and animals perspective.
- Pollination ecology of for example orchids
- Attractants and rewards.
- Seed predation and dispersal.
- Plant protection for example by ants.
- Arms race and co-evolution for example the fig-wasp mutualism.
- Physical and chemical plant defences.
- Evolution and lead discovery of medicinal plants
- Plant-plant and other interactions for example parasitic mistletoes.
- Grazer–algae interactions in the marine environment
- Community level interactions including plants as habitat and food webs.
Learning outcomes:
After completion of the course students will have gained:
Competences:
- Understand the role of plant-animal interactions in the evolution of biodiversity.
- Evaluate the evolutionary and ecological impact of plant-animal interactions.
- Discuss the correlation between plant chemical defense, evolution, and lead discovery of medicinal plants.
- Present her/his own work (in oral and written form) at a level approaching the scientific standard.
- Extract, present and critically discuss in detail the results of a scientific article about plant-animal interactions
- Identify and explain strengths and weaknesses in scientific articles and suggest further enquiries.
- Outline future research.
Skills:
- Identify and classify types of plant-animal interaction.
- Describe examples of plant-animal interactions.
Knowledge:
- Theory and examples of plant animal interactions in an evolutionary perspective including subjects described in the course content.
- Examples of recent and ongoing research on plant-animal interactions using an evolutionary approach.
- Basic knowledge of evolutionary approaches to study plant-animal interaction.
Herrera and Pellmyr (2002). Plant-Animal Interactions. An Evolutionary Approach. Blackwell Publishing. 312 pages.
Supplemented by primary literature.
Students will choose a plant-animal interaction and write an individual essay in the form of a scientific article using primary literature. Students will be assigned into groups of three based on relatedness of essays and prepare a cohesive lecture drawing from all three essays. Discussions will be based on questions to each presentation prepared by fellow students.
- Category
- Hours
- Colloquia
- 18
- Exam
- 2
- Preparation
- 102
- Project work
- 21
- Seminar
- 63
- Total
- 206
As
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- Credit
- 7,5 ECTS
- Type of assessment
- PortfolioCombination of two written multiple choice midterm exams, an individual 5-page essay, and oral presentations and discussions of essays in themed groups.
• 60 minutes written midterm exam I (30%)
• 60 minutes written midterm exam II (30%)
• 5-page essay (20%)
• Presentation (20%) - Exam registration requirements
- Active participation in at least 80% of the lectures. Timely submission of essay for participation in presentations and discussions. Active participation in at least 80% of the presentations and discussions required.
- Aid
- Without aids
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Several internal examiners.
Criteria for exam assesment
In accordance with the learning outcomes.
Course information
- Language
- English
- Course code
- NNMK14006U
- Credit
- 7,5 ECTS
- Level
- Full Degree Master
- Duration
- 1 block
- Placement
- Block 2
- Schedule
- B (Mon 8-12 + Tues 13-17 + Fri 8-12)
- Course capacity
- No limit
- Continuing and further education
- Study board
- Study Board of Biology and Animal Science
Contracting department
- The Natural History Museum of Denmark
Course responsibles
- Nina Rønsted (8-7377747378796a694578737233707a336970)
Lecturers
Staff at SNM: Nina Rønsted, Gitte Petersen, Ole Seberg, Henrik Ærenlund Pedersen, Carlos Reif, Haris Saslis-Lagoudakis, Nina Lundholm and guest lecturers.