Difference between revisions of "Evaluating Landscape Permeability in Quantum"
Line 255: | Line 255: | ||
The first step in actually evaluating a cost path/corridor, is to calculate an accumulated cost surface from a starting point; this is done using r.walk. The second step is to run r.drain on the results from r.walk; in this step the destination is specified. The output from this will be the least cost path from point A to D. This path should then be converted to a vector in order to create an editable line. |
The first step in actually evaluating a cost path/corridor, is to calculate an accumulated cost surface from a starting point; this is done using r.walk. The second step is to run r.drain on the results from r.walk; in this step the destination is specified. The output from this will be the least cost path from point A to D. This path should then be converted to a vector in order to create an editable line. |
||
− | To generate the least cost corridors between ranges A and D, an accumulated cost surface must be created using point D as the starting point. The final step is to add these two accumulated cost surface rasters together. |
+ | To generate the least cost corridors between ranges A and D, an accumulated cost surface must be created using point D as the starting point. The final step is to add these two accumulated cost surface rasters together, which will create the cost corridor. |
==r.walk== |
==r.walk== |
||
+ | r.walk creates the accumulated cost surfaces. |
||
*Go to the Plugins Tab. [[File:Plugins.png]] |
*Go to the Plugins Tab. [[File:Plugins.png]] |
||
Line 268: | Line 269: | ||
*In the Name of Input Raster Map Containing Friction Costs parameter, insert the master cost raster. [[File:rwalkcostinput2.PNG]] |
*In the Name of Input Raster Map Containing Friction Costs parameter, insert the master cost raster. [[File:rwalkcostinput2.PNG]] |
||
*In the Starting Points Vector Map parameter, select the starting location point. For our example, we wanted to start at Wolf Range A. [[File:rwalkstartingpoint.PNG]] |
*In the Starting Points Vector Map parameter, select the starting location point. For our example, we wanted to start at Wolf Range A. [[File:rwalkstartingpoint.PNG]] |
||
− | + | *Specify a output raster map name and deselect the option to Use the 'Knight's move'. For example we called ours rwalk_A. [[File:rwalkoutput.PNG]] |
|
+ | *Now click Run. [[File:Run.png]] |
||
+ | *Then click View Output. [[File:ViewOutput.png]] |
||
+ | |||
+ | ==r.drain== |
||
+ | r.drain creates the least cost path between the staring point and the destination. |
||
+ | |||
+ | *Go to the Plugins Tab. [[File:Plugins.png]] |
||
+ | *Click Grass. [[File:GRASS1.png]] |
||
+ | *Click Open Grass Tools. [[File:Grasstools.png]] |
||
+ | *Go to the Modules List. [[File:Moduleslist.png]] |
||
+ | *In filter type in r.drain. [[File:rdrainfilter.png]] |
||
+ | *Click on the r.drain tool. [[File:rdraintool.png]] |
||
+ | |||
+ | |||
+ | |||
+ | |||
Revision as of 15:05, 1 December 2012
Contents
- 1 Disclaimer
- 2 Introduction
- 3 Data
- 4 Methods
- 4.1 Before QGIS
- 4.2 Opening QGIS
- 4.3 Installing the Grass Plugin
- 4.4 Add Vector Layers to QGIS
- 4.5 Add Raster Layers to QGIS
- 4.6 Edit Current Grass Region
- 4.7 Clipping Vector Layers to AOI boundary
- 4.8 Union
- 4.9 Editing the Attribute Table
- 4.10 Import Vectors to Grass
- 4.11 Import Raster to Grass
- 4.12 Convert Vector to Raster
- 4.13 DEM to Slope
- 4.14 Reclass
- 4.15 Combined Raster in Map Calc
- 5 Evaluating Least Cost Path and Corridor between Wolf Ranges A and D
- 6 r.walk
- 7 r.drain
- 8 Conclusion
- 9 Helpful Links
- 10 References
Disclaimer
Please note that this Wiki tutorial has been produced for the GEOM4008 Advanced topic in Geographic Information Systems class at Carleton University.
Introduction
The objective of this project was to develop a method to evaluate landscape permeability for large carnivores using only free and open-source software (FOSS). This tutorial has been created to allow non-GIS individuals to successfully complete this analysis in Quantum GIS (1.7.4) using the Grass Plugin. This tutorial will be carried out while analyzing the landscape permeability for grey wolf movement on Vancouver Island. The final result from this project will be a landscape permeability map and provide invaluable insight into the movement of the grey wolf. This information can be used to implement more successful conservation strategies, facilitate ecosystem-based management (EMB), and better understand the genetic flow in the island’s population.
Data
Before beginning this tutorial in Quantum GIS(QGIS) a variety of data is needed. In order to evaluate landscape permeability the data must be specific to the area and animal chosen to analyse. After the animal has been chosen parameters that would inhibit movement in the study area should be studied and then data must be located. For our analysis of movement on the grey wolf on Vancouver Island we used a combination of freely available data, as well as data we created for the purpose of this tutorial. See Table 1 for the data used and the source of the data.
Data Used | Data Source |
---|---|
Boundary of Vancouver Island | Scholars Geoportal Layer: Dissemination Blocks - Cartographic Boundary File (DB-CBF), 2011 Census / Producer: Statistics Canada |
Lakes | Scholars Geoportal Layer: Minor Water Regions (MNWTR) / Producer: DTMI Spatial Inc. |
Roads | Scholars Geoportal Layer: Route File (RTE) / Producer: DTMI Spatial Inc. |
Parks | Scholars Geoportal Layer: Parks and Recreation - Region / Producer: DTMI Spatial Inc. |
Landcover | GeoBase Layer: Land Cover / Producer: Circa 2000 |
DEM | GeoBase Layer: Canadian Digital Elevation Data / Producer: Natural Resources Canada |
Grey Wolf Range | Created Data |
Deforestation on Vancouver Island | Created Data |
Hunting Camps | Created Data |
Methods
It is highly recommended that these methods are done in order.
Before QGIS
Before you can begin in QGIS you must first locate all the data that you wish to use. A good place to start if you are unsure where to find free data would be Scholars Geoportal and GeoBase. Links to these sites can be found in Table 1. Once you have found all the data you wish to use create a folder in your computer and place the data in this folder.
Opening QGIS
Before beginning ensure that Quantum GIS is installed on the computer you wish to use. If you do not have QGIS installed, download QGIS.
- Once the installation has been completed, or if QGIS was already installed, click the QGIS icon to open the program. This will open the initial QGIS window.
- Immediately go to the File Tab.
- Click Save Project As.
- Save your project in the folder with all your data.
- IMPORTANT NOTE: Remember to save your project often.
Installing the Grass Plugin
Once the initial QGIS window has been opened it is highly recommended that the GRASS plugin be installed next. The Grass plugin allows the tools from Grass to be used within QGIS.
- Go to the Plugins Tab.
- Click Manage Plugins.
- This will bring you to the QGIS Plugin Manager Window.
- In filter write GRASS.
- Click on the GRASS Plugin and make sure there is an x in the box.
- Finally, click OK.
- Go back to the Plugins Tab, a new GRASS Tab should have appeared.
- Hold your curser over Grass and a new Grass list will appear. As you can see most of the tools are grayed out.
- In order to fix this click on New Mapset. The Mapset is the location where you want your grass files to be stored.
- Click Browse and then go to your chosen destination.
- Once you have browsed to the location, click Next.
- Now you will create a new GRASS location. We named ours GRASS.
- Then click Next.
- This will bring you to the Projection window. Defining your projection is extremely important.
- Click the circle beside Projection. You must chosen the projection based on your study location. ***link to website*** As our location is in Vancouver Island we chose Universal **Transverse Mercator (UTM), NAD83 (NSRS2007) /UTM zone 10N.
- Once you have chosen your projection click Next.
- This will bring you to the Define GRASS Region Window.
- Scroll to the country your study area is in and click Set.
- Then click Next.
- This will bring you to the Mapset window.
- Name your new Mapset. We named ours Mapset.
- Click Next.
- Then click Finish. Your new mapset has now been created!
- If you go back to the Plugins Tab you can see that the tools are no longer grayed out. Depending on the computer you are using you may have to open the mapset every time you open and close QGIS.
- In order to do this go to the Plugins Tab.
- Click Grass.
- Lastly, click Open Mapset.
Add Vector Layers to QGIS
- To add vector layers, click the “Add Vectors layer” button at the top left of the screen.
- Browse to the location were you saved your data.
- Click Open.
- For this project we added the boundary of Vancouver Island, roads, lakes, parks, landcover, grey wolf range, hunting camps, deforestation as they were all vector layers.
- These layers will appear in the Table of Contents (T of C) on the left.
Add Raster Layers to QGIS
- To add a raster layer, click the Add Raster Layer button.
- Navigate to the folder with data using the Browse button.
- Chose the w001001.adf file.
- Then click Open. These layers will show up in the T of C on the left. The raster layer we added to the project was the DEM layer.
- In the T of C right click on the layer that says w001001.
- Click on properties.
- Within the layer properties go to the General Tab.
- Under Display name give the layer an appropriate name. We named ours DEM.
- Next go to the Style Tab.
- Change the Colour Map to be Pseudocolour.
- Then click OK.
Edit Current Grass Region
It is very important to edit the Current Grass Region
- In order to do so go to the Plugins Tab.
- Click on Grass.
- Then click the Edit Current Grass Region Button.
- The extent can be created by drawing an area of interest around your boundary layer.
- Then click OK.
Clipping Vector Layers to AOI boundary
- To clip all the layers to the Area of Interest (AOI) Boundary go to the Vector Tab.
- Click Geoprocessing Tools.
- Then click Clip.
- The Input vector layer is the layer that needs to be clipped. For example we had to clip our Roads file as we had all the Roads in BC.
- The Clip layer is the boundary layer.
- Name the output shapefile in the appropriate location.
- Then Click OK.
Union
A union must be complete on all of the vector layers that do not have full data coverage of the boundary file.
- To complete this process go to the Vector Tab, click Geoprocessing Tools, and click Union.
- The input vector layer should be boundary file.
- The union layer should be any layer that does not have full coverage as described above. We completed this process for lakes, parks, grey wolf range, deforestation, and hunting camps.
- Specify the location and name of the output shapefile. An example of how we named ours is Parks_U.
- Click OK.
- A geoprocessing box will pop up asking if you would like to add the new layer to the T of C.
- Click Yes.
Editing the Attribute Table
The attribute table must be edited on all the layers you preformed a union on.
- To open the attribute table right click on the layer.
- Left click on Open Attribute Table.
- In order to edit click the editor mode on.
- Create a new column by clicking New Column.
- The add Column window will pop up. Give the column a name. We named our CLASS.
- If you would like you can give the column a comment, however it is not necessary.
- Ensure the type is set to whole number (integer), with a width of 1.
- The click OK.
- In the new column CLASS set the original boundary to be 1 and all the remaining attributes to be 2
- The boundary can be distinguished by clicking on the numbers on the left side of the window. (seen in red).
- As you click the numbers sections of the map will become highlighted.
- Again once you have found the boundary put a 1 in the CLASS column and a 2 in the rest of the column.
- To save changes click the editor mode button again.
Import Vectors to Grass
To use the GRASS plugin all the layers must be imported into a GRASS format. For all the vector layers the tool v.in.ogr.qgis must be used.
- To do so go to the Plugins Tab.
- Click Grass.
- Then click Open GRASS Tools.
- Next go to the Modules List Tab.
- In the filter box type v.in.ogr.qgis.
- Click on the Correct Tool.
- The tool will pop up.
- Use the drop down OGR vector layer arrow to select a layer to change to grass format.
- IMPORTANT NOTE: the layer must be on in the T of C for the drop down to function.
- Give the output vector map a name. An example of our naming scheme would be Deforest_U_G.
- Click Run.
- Once the tool has successfully finished click View Output. The layer will appear in the T of C.
Import Raster to Grass
To use the GRASS plugin all the layers must be imported into a GRASS format. For all the vector layers the tool r.in.gdal.qgis must be used.
- To do so go to the Plugins Tab.
- Click Grass.
- Then click Open GRASS Tools.
- Go to the Modules List Tab.
- In the filter box type r.in.gdal.qgis.
- Click on the correct tool.
- The tool will pop up.
- Use the drop down loaded layer arrow to select a layer to change to grass format.
- IMPORTANT NOTE: the layer must be on in the T of C for the drop down to function.
- Give the output vector map a name a click Run. An example of our naming scheme would be DEM_G.
- Once the tool has successfully finished click View Output. The layer will appear in the T of C.
Convert Vector to Raster
The convert vector to raster does exactly as the name sounds. All the vectors layers must be converted to raster. For our project we converted roads, lakes, parks, landcover, grey wolf range, hunting camps, and deforestation.
- Go to the Plugins Tab.
- Click Grass.
- Then click Open Grass Tools.
- Go to the Modules List.
- In filter type in v.to.rast.attr.
- Click the correct tool. and the tool will then open.
- Using the dropdown arrow place the name of the input vector map you wish to rasterize.
- Remember the layer must be on for the dropdown menu to work.
- In the Attribute field place the CLASS layer that you created.
- Give the output raster map a name.
- Click Run.
- Finally click View Output.
DEM to Slope
In order to use the DEM for the analysis it must first be changed into slope layer.
- Go to the Plugins Tab.
- Click Grass.
- Click Open Grass Tools.
- Go to the Modules List.
- In the filter box type slope.
- Click the Slope Tool.
- Input the name of the elevation raster map. For this project our input map was called DEM.
- Name the output slope raster map. Our output map was named slope.
- The format for reporting the slope can be degrees or percent. We used degrees.
- Click Run.
- Lastly, click View Output.
Reclass
In order to assign a cost value to each cell, we must perform a reclass on each raster. Before beginning the reclass, a textfile (.txt) must be written in which the reclass rules will be specified. This subjective process that should be based on scientific literature and expert opinion.
- For each unique pixel value in a raster, the reclass rules will dictate the assigned cost (i.e. the level of difficulty, from 1 to 10) that a wolf would have traveling across it. For example, any water pixel in the lakes raster, was assigned a cost of 7. The cost value of 7 was assigned because water poses a barrier to wolf movement; however, the wolves can swim if necessary.
- In the image shown above, the first column on the left indicates each unique pixel value in the raster (recall, for the layers in which a union was required,these values would be 1 (the boundary) and 2 (ex.lakes)). The second column indicates the cost value you wish to reassign to each pixel.
- If the raster has more than two unique values, then you can assign a single cost value to a range of slope values. This example is demonstrated below using our Slope raster.
- For further help creating the reclass rule files see r.reclass Grass Help
Next you must actually run the reclass using the r.class tool.
- Go to the Plugins Tab.
- Click Grass.
- Click Open Grass Tools.
- Go to the Modules List.
- In filter type in r.reclass.
- Click on the correct tool.
- Input the raster map to be reclassified.
- For the File Containing Reclass Rules parameter window browse to the location of your saved reclass rules.
- Specify a output raster map name. For example we called ours Huntrange_Reclass.
- Now click Run.
- Then click View Output.
Combined Raster in Map Calc
- Go to the Plugins Tab.
- Click Grass.
- Click Open Grass Tools.
- Go to the Modules List.
- In filter type in r.mapcalculator.
- Click on the map calculator tool.
- Click Run.
- Click View Output.
Evaluating Least Cost Path and Corridor between Wolf Ranges A and D
The first step in actually evaluating a cost path/corridor, is to calculate an accumulated cost surface from a starting point; this is done using r.walk. The second step is to run r.drain on the results from r.walk; in this step the destination is specified. The output from this will be the least cost path from point A to D. This path should then be converted to a vector in order to create an editable line.
To generate the least cost corridors between ranges A and D, an accumulated cost surface must be created using point D as the starting point. The final step is to add these two accumulated cost surface rasters together, which will create the cost corridor.
r.walk
r.walk creates the accumulated cost surfaces.
- Go to the Plugins Tab.
- Click Grass.
- Click Open Grass Tools.
- Go to the Modules List.
- In filter type in r.walk.
- Click on the r.walk.vect tool.
- In the Name of Elevation Input Raster Map parameter, select the DEM.
- In the Name of Input Raster Map Containing Friction Costs parameter, insert the master cost raster.
- In the Starting Points Vector Map parameter, select the starting location point. For our example, we wanted to start at Wolf Range A.
- Specify a output raster map name and deselect the option to Use the 'Knight's move'. For example we called ours rwalk_A.
- Now click Run.
- Then click View Output.
r.drain
r.drain creates the least cost path between the staring point and the destination.
- Go to the Plugins Tab.
- Click Grass.
- Click Open Grass Tools.
- Go to the Modules List.
- In filter type in r.drain.
- Click on the r.drain tool.
Conclusion
Helpful Links
Welcome to the Quantum GIS Project