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Spatial Statistics in Ecology: Area Data Lecture Four.

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Presentation on theme: "Spatial Statistics in Ecology: Area Data Lecture Four."— Presentation transcript:

1 Spatial Statistics in Ecology: Area Data Lecture Four

2 Recall and Introduction to Area Data Recall that we have visualized, explored and modeled point patterns and continuous processes Many of the same concepts that you have previously learned apply to area data Think of area data like a continuous process that is separated in zones

3 Can you think of some types of area data that ecologists might use?

4 Types of Area Data Recall that area data is either grid – raster format or irregular – vector format Area data must be continuous like states in a country – this is called “contiguity” Areas must be contiguous to create the spatial weight matrix that is used to study first order effects Areas that are not contiguous can still be studied for second order effects

5 Patterns in zonation Each area is assumed to have a fixed value or mean value We are not interested with areal data in predating the value of an attribute in areas which it has not been sampled Instead we are interested in how the zones vary and the type of pattern that arises across zones Proportional symbols map

6 Visualizing area data Area data is mapped using the choropleth map or using proportional symbols Grid or lattice dataIrregular zone data

7 Exploring Area data: Proximity The first issue to deal with when using area data is PROXIMITY Proximity refers to how to measure how close a unit is to another unit when they are irregularly shaped and do not have obvious grid like centroids

8 Proximity Some examples are: 1. Centroids 2. Common boundaries 3. Length of boundaries 4. Hybrid measures such as shared boundary + distance between centroids centroids Common boundary Length of boundary

9 Spatial Weight Matrices Proximity is used to create a spatial weight matrix (n x n) proximity matrix W, each of whose elements wij, represents a measure of the spatial proximity of areas Ai and Aj

10 Kernel Estimation For area data Kernel estimation requires a fixed centroid as it cannot be used to look at irregular areas. Thus, kernel estimation is more appropriate for grids and lattice data or data with obvious centroids In this case Kernel estimation is almost the same as it was for spatially continuous data

11 Second-order: AUTOCORRELATION Remember the variogram? The correlogram in typically used to explore spatial dependence of area data When applied to area data it is formally called spatial autocorrelation Autocorrelation involves correlation between values of the SAME variable at different spatial locations

12 Autocorrelation ConceptualGeary’s cMoran’s I Similar, regionalized, smooth, clustered 0 < C < 1I > 0* Independent, uncorrelated, random C = OI < 0* Dissimilar, contrasting, checkerboard-like C > 1I < 0* Note 0* = 1/n(n-1) where n is the number of objects Moran’s I represents the overall agglomerative patterns of areas (are areas of like value clumped together or dispersed Geary’s c explains similarity or dissimilarity (is it possible to predict from one area what the value will be at a neighboring area).

13 The correlogram Both Moran’s I and Geary’s C an be used to create correlograms showing the lag to lag (distance) spatial dependence between areas

14 Example correlograms What can you tell about the spatial dependence of these 3 variables?

15 Modelling area data Non-spatial regression models Suitable if there is no spatial dependence First produce a correlogram If there is no dependence proceed with regression Spatial regression models If there is spatial dependence than use a spatial regression model SAR or CAR models

16 Example: Ireland Blood Type A How is blood type A distributed in Ireland? Samples were taken from 55000 people in 26 counties How does the proportion of people with blood type A vary across counties?

17 Step One: Produce Map

18 Step Two: run SAR model

19 Step Three: map residuals and produce correlogram

20 Summary: Lecture Four Area data differs from continuous processes in that we look at variation in the mean value of an area to discover patterns between zones First-order effects are studied by kernel estimation or spatial autoregressive models Second-order effects are considered using Moran's I and Geary’s and by producing correlograms


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