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Environmental Modeling Testing GIS Layer Relevancy.

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Presentation on theme: "Environmental Modeling Testing GIS Layer Relevancy."— Presentation transcript:

1 Environmental Modeling Testing GIS Layer Relevancy

2 1. A Habitat Model/Factors ► Determine potential sighting locations of Grizzly bear in a park ► Factors 1. Land cover types 2. Species richness 3. Species interspersion Agee, J.K., S.C.F. Stitt, M. Nyquist, and R. Root, 1989. A geographic analysis of historical Grizzly Bear sightings in the North Cascades. Photogrammetric Engineering and Remote Sensing, 55(11):1637- 1642. Agee, J.K., S.C.F. Stitt, M. Nyquist, and R. Root, 1989. A geographic analysis of historical Grizzly Bear sightings in the North Cascades. Photogrammetric Engineering and Remote Sensing, 55(11):1637- 1642.

3 2. Raw Data ► Land cover Source: satellite images, digital aerial photos, land cover data, GAP data Source: satellite images, digital aerial photos, land cover data, GAP data ► Existing bear sighting data: 91 locations ► Existing bear sighting data: 91 locations

4 3. Data Layer Preparation 1. Land cover 22 types identified 22 types identified 2. Species richness The total number of unique land cover types in a 3x3 or larger window The total number of unique land cover types in a 3x3 or larger window 3. Species interspersion The number of cells with land cover types different from the center cell The number of cells with land cover types different from the center cell

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6 3. Data Layer Preparation 3 4 5 0 1 6 8 3 1 5 3 4 0 2 1 3 8 0 5 1 6 7 5 5 7 5 8 8 6 8 7 8 Richness Interspersion Moving windows These result in three raster layers

7 3. Data Layer Preparation 4. The window size can be 5x5, 7x7, 9x9,..... The optimal window size is the one with the greatest difference in richness or interspersion The optimal window size is the one with the greatest difference in richness or interspersion The "difference" can be absolute value range or variance for richness or interspersion The "difference" can be absolute value range or variance for richness or interspersion 5. In addition to the 91 sightings sites, generate another set of 91 random locations

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9 4. Statistical Analysis ► Determine whether each of the three variables is relevant ► For each of the 91 sighting sites and each of the 91 random sites, record each of the 91 random sites, record 1. Land cover types (nominal) 1. Land cover types (nominal) 2. Species richness (ratio) 3. Species interspersion (ratio)

10 4. Statistical Analysis.. Develop the raster layers first Develop the raster layers first Then generate the 91 random sites Then generate the 91 random sites Lastly, extract values for the two sets of 91 sites Lastly, extract values for the two sets of 91 sites

11 Tech Tips ► To generate random points, use Hawth's tools Hawth's tools http://www.spatialecology.com/htools/tooldesc.php http://www.spatialecology.com/htools/tooldesc.php http://www.spatialecology.com/htools/tooldesc.php ► If Hawth’s tools does not work for ArcGIS 10.2, try the following: try the following: ArcToolBox - Data Management Tools – ArcToolBox - Data Management Tools – Feature Class - Create Random Points Feature Class - Create Random Points

12 Tech Tips.. ► To extract values from the raster layers and export to point shapefiles, use export to point shapefiles, use Extract values to points in Spatial Analyst Extract values to points in Spatial Analyst

13 Tech Tips.. ► To extract centroids of a polygon shapefile, Spatial Analyst Tools -> Zonal -> Zonal Spatial Analyst Tools -> Zonal -> Zonal Geometry on the polygon shapefile Geometry on the polygon shapefile ► In Zonal Geometry, input your polygon data, the "zone field" can be anything, and make sure the "zone field" can be anything, and make sure the "geometry type" is centroid "geometry type" is centroid ► The output is a raster that contains all the centroids of the input polygons. Then convert centroids of the input polygons. Then convert the "point" raster into a point feature class the "point" raster into a point feature class

14 Tech Tips.. ►

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16 4. Statistical Analysis 1. Does the allocation of land cover types differ between the bear sighting sites and the random sites ► Null H 1 : the number of each cover type used by bear = that of each type of the random sites Assuming that the random sites represent the entire area Assuming that the random sites represent the entire area ►  2 test Accept or reject the null ► This could have been the case, but the paper tested it in a different way

17 4.1 Stats ► Null H 1paper : % of each cover type used by bear = % of each type in the entire study area % of each type in the entire study area ►  2 test number of categories? in each category number of expected? number of observed?

18 ► Land cover types of the area and at bear sighting sites Cover type %Area Expected# Actual# Douglas Fir10.19.2 7 Subalpine fir 10.29.3 10 Whitebark pine 2.21.5 8 Mountain hemlock 3.83.5 5 Pacific silver fir 8.47.7 4 Western hemlock 10.19.2 7 Hardwood forest 1.21.1 0 Tall shrub 4.94.5 4 Lowland herb 8.57.7 12 …… ….. ….. …. Total (22 types)100% 91 91

19 4.1 Stats ► Null H 1paper : % of each cover type of random sites = % of type in the entire study area ►  2 test number of categories? in each category number of expected? number of observed?

20 4. Statistic Analysis 2. Does species richness differ between the sighting sites and the random sites? Or whether richness makes a difference? ► Null H 2 : richness of sighting sites = richness of random sites, Test ? richness of random sites, Test ? ► Accept or reject the null richness of sighting sites = random sites?

21 4. Statistic Analysis 3. Does species interspersion differ between the sighting sites and the random sites? Or whether interspersion makes a difference? ► Null H 3 : interspersion of sighting sites = interspersion of random sites, Test ? interspersion of random sites, Test ? ► Accept or reject the null Mean interspersion sighting sites = random sites? Mean interspersion sighting sites = random sites?

22 5. GIS Overlay ► Keep the variables that are tested significantly different between sighting sites and random sites cover type: ? richness: ? cover type: ? richness: ? interspersion: ? interspersion: ? ► Prepare a data layer for each significant variable

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