1. The critical concept of scale
“…the problem of relating phenomena across scales is the central problem in biology and in all of science”. Simon Levin 1992.
Increasing technological sophistication now allows observations to be made across microscopic to global scales. Consequently, as there is a need to integrate our observations, there is also a need to develop and use a set of common terms related to scale.

2. http://htwins.net/scale2/ https://www.youtube.com/watch?v=uaGEjrADGPA

3. Why be concerned about scale?
Scale greatly influences our understanding of environmental causality
Making observations of the world and knowledge claims from them is constrained by scale
Patterns are dependent upon the scale of observation.
The relevant explanatory variables change with scale.

4. What makes it warm or cold?
The cause you select, and hence, how we understand the world, depends upon temporal and spatial scale
Cloud cover and humidity (minutes to hours)
Diurnal (day-night) cycles
Seasonal cycles (1 year)
Cyclical fluctuations due to sunspots (10-50 years)
Anthropogenic contribution of greenhouse gases ( years)
Milankovitch orbital cycles (10,000 yrs)
We can perceive the world at different scales – our choice of spatial and temporal scale influence what we can say about how the world works.

5. Temperature anomalies (departures from the mean) for an intersection in central , Australia

6. Microclimates

7. Macroclimate

8. Here is another example of how scale shapes our interpretation of the world and knowledge claims we make about it

9. Wet Drought index Dry Wet Drought index Dry
How does scale apply to the interpretation of these graphs? The western US was settled during the last 200 years. What can you tell me about the climate over that period? Was it wetter or drier than what the record shows over the last 400 years?
Drought index – more negative values indicate drier conditions. Drought conditions were interpolated from tree rings
Dry

10. Operational scale
Refers to the spatial and temporal dimensions of an object or a process

11. Operational scale
Operational scale of a phenomena can change as our technology changes
How did we define the world before our understanding of astronomy, or biology?

12. Ecological scale
Decreasing (finer) grain, extent is constant
Defines how we process observations of the world, and how we statistically analyze it and communicate the results
Extent: the spatial (or temporal) dimension of the object or process observed or analyzed
Grain: level of spatial (or temporal) resolution at which an object or process has been measured or observed.
Increasing extent, grain is held constant

13. Haggett’s scale coverage problem
Nature has an immense extent and a fine grain
We cannot perceive it all simultaneously
Makes it difficult to establish to make measurements of it and to establish relationships between pattern and process

14. Haggett’s scale coverage problem
To make even small descriptions of it, we have to sample
Sampling requires:
Sacrificing fine grain for a larger extent
Sacrificing large extent for finer grain.

15. Fallacies of spatial inference
Individualistic fallacy: extrapolating to the broad extents based on observations conducted at small, local extents
Ecological fallacy: making local-scale characterizations based on observations at broad extents.
To an extent, humans are going to have to commit these fallacies in order to understand the world, for better or for worse

17. What fallacy is communicated ad absurdum in this video?
5:15 in
What fallacy is communicated ad absurdum in this video?

18. Modifiable areal unit problem (MAUP)
How we designate boundaries determines the properties of the entities within them
Two components
Aggregation problem
Zoning problem

19. Mean and variance are shown, standard deviation squared gives you the variance

20. Water scarcity in Asia: an example of how the MAUP shapes knowledge claims
Data for population and water availability

21. Water scarcity variability due to MAUP

22. Different governance and monitoring units

23. But couldn’t you learn about water scarcity by interviewing people, and taking a local, qualitative approach. Both approaches are necessary, quantitative and qualitative, each at different scale extents and grains, for a fuller understanding of water scarcity.
Even within a water rich area, access may be limited because of poverty or infrastructure, facets of water scarcity that the large spatial extent approach would miss. Likewise, getting a big picture view can also be informative. Indians collect water from a bore well tank at a village outside of Ahmadabad, India.

24. How MAUP contributed to lead exposures in drinking water in Flint, MI

25. Rules for ecological scale
Patterns are dependent upon the scale of observation
The relevant explanatory variables change with scale.
Ecological scale can be used to justify or refute certain management practices and ideas about nature
Other organisms scale the world differently from us

26. 1. Patterns are dependent upon the scale of observation. 2
1. Patterns are dependent upon the scale of observation The relevant explanatory variables change with scale.
Climate shapes the accumulation of organic matter over centuries. Fluctuations over years due to annual variation and the seasons. Biological activity determines accumulations at finer resolutions

27. 1. Patterns are dependent upon the scale of observation.
2. The important explanatory variables change with scale.

28. Rules for ecological scale
Scale can be used to justify or refute certain management practices and ideas about nature. For example, how can you use ecological scale to arrive at different conclusions about the impacts of clearcutting?

29. Example: Successional response to clearcut logging
Grain and extent of post-logging sampling determine criteria for judging effects of clearcutting
Resurvey over large extent and fine grain: criteria for recovery not likely to be met – clearcut logging is bad
Resurvey over small extent and coarse grain: criteria for recovery easier to meet – clear cut logging is not bad

30. Rules for ecological scale
4. Other organisms scale the world differently from us. The scales experienced by an organism define what it sees and responds to. For example, what might constitute a patchy resource to an insect, could be perceived by a larger vertebrate such as a bird as a homogeneous patch.