towards structurally realistic models: pattern-oriented modelling

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Towards Structurally Realistic Models: Pattern- oriented Modelling Volker Grimm, UFZ Umweltforschungszentrum Leipzig-Halle Sektion Ökosystemanalyse

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Towards Structurally Realistic Models: Pattern-oriented Modelling. Volker Grimm, UFZ Umweltforschungszentrum Leipzig-Halle Sektion Ökosystemanalyse. Contents. „philosophies“ of modelling The „Medawar“ zone Pattern-oriented Modelling (POM) Examples (short) Benefits of POM - PowerPoint PPT Presentation

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Page 1: Towards Structurally Realistic Models: Pattern-oriented Modelling

Towards Structurally Realistic Models: Pattern-oriented

Modelling

Volker Grimm, UFZ Umweltforschungszentrum Leipzig-Halle

Sektion Ökosystemanalyse

Page 2: Towards Structurally Realistic Models: Pattern-oriented Modelling

Contents

• „philosophies“ of modelling

• The „Medawar“ zone

• Pattern-oriented Modelling (POM)

• Examples (short)

• Benefits of POM

• Discussion

Page 3: Towards Structurally Realistic Models: Pattern-oriented Modelling

Literature

Grimm (1994) Ecol Model 75/76: 641Grimm et al. (1996) Sci Total Env 183:151Grimm (2001) [German]Railsback (2001) Nat Res Model14: 465Grimm and Berger (2002) (in press)DeAngelis and Mooij (2002) (in press)Railsback and Harvey (2002) Ecology 83:1817Wiegand et al. (2002) Oikos (in press)Wiegand et al. (2002) Biodiv Conserv (in press)Grimm et al. (in preparation)...

http://www.oesa.ufz.de/volker/POM/

Page 4: Towards Structurally Realistic Models: Pattern-oriented Modelling

Philosophies of modelling

Old distinction: strategic vs. tactical Holling 1966, May 1974

analytical solutions simulations

no details many details

understanding too complicated

theory no theory

good bad

strategic

complexity

tactical

payoff

Page 5: Towards Structurally Realistic Models: Pattern-oriented Modelling

However:

strategic models:• Often untestable because of being so abstract

• „Glasperlenspiele“ in the realm of logical possibilities?

• Tautologies?

• Provide little insight in what really is going on in real systems

Nowadays: new tools• individual-based, grid-based, rule-based models (bottom-up)

• Chance, to adjust model resolution to the problem/system

• But how to find the „right“ resolution of a bottom-up model?

Page 6: Towards Structurally Realistic Models: Pattern-oriented Modelling

The „Medawar“ zone

Loehle, C. 1990. A guide to increased creativity in research - inspiration or perspiration? BioScience, 40: 123-129

Page 7: Towards Structurally Realistic Models: Pattern-oriented Modelling

The „Medawar“ zone

complexity

payoff

It should be possible to find a range of optimal „resolution“ (level of detail, complexity, richness in structure and mechanism), i.e. neither too simple nor too complex, but just „right“.

Optimal: theory + testable predictions = insights about the real world.

Question: Who tells us how to find the Medawar zone?

Answer: Mother nature herself!

Page 8: Towards Structurally Realistic Models: Pattern-oriented Modelling

Patterns

• Patterns = everything beyond random variation

• Patterns indicate underlying (key-)processes and structures, which generate the patterns

• Patterns contain information about (key-)processes and structures - but in a „coded“ way

• Modelling means to „decode“ the patterns of a system

• If we do this right, the model will be in the Medawar zone and will be structurally realistic.

Page 9: Towards Structurally Realistic Models: Pattern-oriented Modelling

Patterns? Of course, what else?

General research program of (natural) sciences: trying to decode patterns.

• atomic spectraatomic spectra

• Kepler’s lawsKepler’s laws

• Iridium layerIridium layer

• Chargaff’s rulesChargaff’s rules

• ......

• cyclescycles

• spatial patternsspatial patterns

• species-area relationshipspecies-area relationship

• patch dynamicspatch dynamics

• ... (not too many)... (not too many)

Page 10: Towards Structurally Realistic Models: Pattern-oriented Modelling

Problem: one pattern is not sufficient

For example: Cycles

• Often, it is rather easy to reproduce one single pattern

• Different mechanisms (models) reproduce the same pattern

• A single pattern is usually not sufficient to narrow down model structure

Hare-lynx cycles:

• Additional patterns: constant period, but chaotically varying amplitudes

• Model structure was narrowed down (Blasius et al. 1999; Kendall et al. 1999)

Page 11: Towards Structurally Realistic Models: Pattern-oriented Modelling

Pattern-oriented modelling

1. Explicit: question or problem to be tackled. Iter.

2. Formulate (verbally, graphically) a model which reflects the current understanding of the system = assemble working hypotheses (data, empirical knowledge, theory). Iter.

3. Identify patterns at different hierarchical levels, e.g. behaviour of individuals or local spatial units, system-level patterns. Don‘t focus exclusively on „strong“ patterns, but think of anything which distinguishes the system. Iter.

4. Provide a model structure (states, variables, space, stochastics, mechanisms, processes, attributes, etc.) which - in principle - allows that the patterns emerge also in the model. Iter.

5. Implement the model (based on 2. and 4.) and try and see if one or more patterns are reproduced. Iter Iter Iter.

6. Try and identify the minimum model which reprodes all the patterns SIMULTANEOUSLY.

7. Try and answer the original question of the model.

8. Search for independent prediction.

Page 12: Towards Structurally Realistic Models: Pattern-oriented Modelling

Example 1: Beech forest model

Objective of the model:Objective of the model:

• Spatio-temporal dynamics of natural beech forests

• How large must a natural beech forest be to allow for typical structures and dynamics

• What drives the dynamics?

First model (Wissel 1992):First model (Wissel 1992):

• Cellular automaton: local cyclic succession plus neighbour interaction via „sunburning“.

• Model reproduces mosaic pattern of beech forest.

• Nice demonstration, but nobody was really convinced.

Page 13: Towards Structurally Realistic Models: Pattern-oriented Modelling

Example 1: Beech forest model

New model (Neuert, Grundmann, Wissel, Rademacher, New model (Neuert, Grundmann, Wissel, Rademacher, Grimm) BEFORE:Grimm) BEFORE:

Pattern 1: mosaic patternNeuer 1999, Neuert et al. 2001, Rademacher et al. 2001

Page 14: Towards Structurally Realistic Models: Pattern-oriented Modelling

Example 1: Beech forest model

New model (Neuert, Grundmann, Wissel, Rademacher, New model (Neuert, Grundmann, Wissel, Rademacher, Grimm) BEFORE:Grimm) BEFORE:

Pattern 2: local stand development distinguished by typical patterns in vertical structure

1. Growing stage

Many young trees, few old ones, trees in all vertical layers

2. Optimal stage („Hallenwald“)

Closed canopy, no understory, little mortality, wood biomass maximal (=typical managed forest of about 100 years)

3. Decaying stage

Canopy trees die successively (age, storms), canopy gaps, emergence of lower layers

Page 15: Towards Structurally Realistic Models: Pattern-oriented Modelling

Zellgröße 14.28 x 14.28 m²

oberesKronendach

unteresKronendach

Jungbuchen

Sämlinge

1-8 trees, each 1-8 units largeindividual-based

1-8 trees, each 1 unit large individual-based

% cover

% cover - 0.3 m

- 20 m

- 30 m

- 40 m

Provide model structure which allows - in principle - Provide model structure which allows - in principle - the vertical pattern to emerge:the vertical pattern to emerge:

Page 16: Towards Structurally Realistic Models: Pattern-oriented Modelling

Provide model structure which allows - in principle - Provide model structure which allows - in principle - the vertical pattern to emerge: the vertical pattern to emerge:

Local processes (within cells; shading and shade tolerance); and: Neighbourhood processes:

+ + -

Page 17: Towards Structurally Realistic Models: Pattern-oriented Modelling

Results of BEFORE

b c

a

Cover in layers

Stages within cells Stages (moving average)

Page 18: Towards Structurally Realistic Models: Pattern-oriented Modelling

Richness in model structure and mechanisms

Page 19: Towards Structurally Realistic Models: Pattern-oriented Modelling

Richness in model structure and mechanisms

Allowed for independent predictions regarding Allowed for independent predictions regarding distribution of „giant“ trees distribution of „giant“ trees Rademacher et al. 2001

Allowed to augment the model by modules Allowed to augment the model by modules addressing dead wood (woody debris) addressing dead wood (woody debris) in prep.

complexity

payoff

W

´BEFORE

Page 20: Towards Structurally Realistic Models: Pattern-oriented Modelling

Example 2: stream trout model

In a stream trout model, three different „theories“ on habitat choice were available, one based on a classical model of habitat choice.

To filter out the most appropriate theory, the following six behavioural patterns, drawn from the literature, were used:

1. The dominant fish aquires the best feeding site; if removed, the next dominant fish moves up the hierarchy.

2. During flood flows, adult trout move to the stream margins where stream velocities are low.

3. Juvenile trout use higher velocities when competing with larger trout.

4. Juvenile trout use faster and shallower habitats in the presence of predatory fish.

5. Trout use higher velocities on average when temperatures are higher.

6. When general food availability is decreased, trout shift to habitat with higher mortality risks but also higher food intake.

Only one of the theories was able to reproduce all six patterns simultaneously.

Railsback (2001) Nat Res Model14: 465Railsback and Harvey (2002) Ecology 83:1817

Page 21: Towards Structurally Realistic Models: Pattern-oriented Modelling

Structural realism

Using multiple patterns for deciding on model structure leads to models, which are

• „structurally realistic“, i.e. they capture the essenced of the (hierarchical) structure of the system

• so rich in structure and mechanisms that they allow for independent predictions

• are easily adjusted to other problems regarding the same system („cranking out papers“)

Komplexität

payoff

Page 22: Towards Structurally Realistic Models: Pattern-oriented Modelling

Benefits of POM models

• Structural realism

• Applicable to situations beyond the situation which was used for the original parameterisation (in contrast to fitting a model)

• Easier to understand and communicate because you are dealing with key structures and processes

• Model structure is less ad hoc, but narrowed down by the patterns

• Patterns may also be used to indirectly determine parameters (fitting of structurally realistic model to multiple patterns) Wiegand et al. 2002 a/b

Page 23: Towards Structurally Realistic Models: Pattern-oriented Modelling

Limitations and pitfalls

• A model is a model is a model !!!

• Distrust patterns: human minds are inclined to perceive patterns everywhere

• Be careful not to hardwire the patterns in the model structure („imposed behaviour“) Railsback 2001

• (POM is not restricted to bottom-up models, but also powerful with analytically formulated models)

Page 24: Towards Structurally Realistic Models: Pattern-oriented Modelling

Summary

Pattern-oriented modelling is good for you!