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| Version 2013-2014 |
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| OCEA0057-7 | Marine Ecology
- Marine ecology
- Introduction to marine ecosystems modelling
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| Duration : | Marine ecology : 15h Th, 6d FW
Introduction to marine ecosystems modelling : 15h Th, 15h Pr
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| Number of credits : |
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| Lecturer : | Marine ecology : Sylvie Gobert, Mathieu Poulicek
Introduction to marine ecosystems modelling : Marilaure Grégoire
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| Coordinator : | N... |
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Language(s) of instruction :
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| English language |
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Course contents :
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 | | Introduction to marine ecosystems modelling |
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| CHAPTER 1 Introduction
- What is a model?
- Why do we need models?
CHAPTER 2 Model formulation
- Conceptual model
- Mathematical model formulation
- Formulation of ecological interactions
- Chemical reactions
- Inhibition
- Coupled model equations
- Impact of physical conditions
CHAPTER 3 Spatial components
- Taonomy of spatial models
- Spatial boundary conditions
- Example: competitive interactions in a lattice model
CHAPTER 4 Parameterisation
- In situ measurement
- Literature-Derived parameters
- Calib_ters.43
CHAPTER 5 Model solution
- Initial conditions
- Analytical solutions of differential equations
- Numerical solution of differential equations
- Steady-state and stability analysis
CHAPTER 6 Testing and validating the model
- Dimensional homogeneity and consistency of units
- Conservation of energy and mass
- Testing the correctness of the model solution
- Testing the internal logic of the model
- Model verification
- Model validity
- Model sensitivity
- Example_74
- Example of the conservation principle: a mass budget of a marine bay
CHAPTER 7 Taxonomy of ecological models
- Strategic versus tactic models
- Continuous and discrete time models
- Deterministic and stochastic models
- Density-biomass specific models
- Physiological - individual-based - population - ecosystem models
- Example: growth of a Daphnia individual
CHAPTER 8 Appendices
- Taxonomy of differential equations
- Solving difference equations
CHAPTER 9 Books for further reading |
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Learning outcomes of the course :
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| | Introduction to marine ecosystems modelling |
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| The main aim of this course is to learn how to conceptualize, parameterize and implement mathematical models of marine biogeochemical processes |
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Prerequisites and co-requisites/ Recommended optional programme components :
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| | Introduction to marine ecosystems modelling |
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| None. The mathematics used will be quiet elementary |
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Planned learning activities and teaching methods :
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| | Introduction to marine ecosystems modelling |
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| The half part of the time will be devoted to the implementation of very simple examples in order to get familliar with models implementation |
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Mode of delivery (face-to-face ; distance-learning) :
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| | Introduction to marine ecosystems modelling |
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| 1.5 ECTS : theory
1.5 ECTS : Exercises |
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Recommended or required readings :
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| | Introduction to marine ecosystems modelling |
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| Available |
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Assessment methods and criteria :
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| | Introduction to marine ecosystems modelling |
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| Evaluated practicle work |
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Work placement(s) :
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Organizational remarks :
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| | Introduction to marine ecosystems modelling |
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| None |
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Contacts :
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| | Introduction to marine ecosystems modelling |
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| Marilaure Grégoire, Laboratoire d'Océanologie, ULg
e-mail : mgregoire@ulg.ac.be
tel : 043663354 |
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