Exercise: Mapping storm damaged forest areas

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(Definition of storm damage)
(Digitizing windthrow areas)
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==Digitizing windthrow areas==
 
==Digitizing windthrow areas==
  
Load and display German Geoadata following the [[Exercise: Displaying German Geobasis data (GBD)]] or load the saved project file ''.\GBData\display_gbd.qgs'' where the project coordinate reference system (CRS) is set to ETRS89/UTM32N (EPSG:25832).
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Load and display German Geoadata using QGIS 2.4 following the [[Exercise: Displaying German Geobasis data (GBD)]] or load the saved project file ''.\GBData\display_gbd.qgs'' where the project coordinate reference system (CRS) is set to ETRS89/UTM32N (EPSG:25832).
  
 
[[Image:windthrow1.png|250px|thumb|right|'''Figure A''': Clearing in a false color composite of a digital orthophoto (DOP20)]]
 
[[Image:windthrow1.png|250px|thumb|right|'''Figure A''': Clearing in a false color composite of a digital orthophoto (DOP20)]]

Revision as of 14:48, 14 July 2014

Contents

Definition of storm damage

Mapping of forest damages caused by storms using visual interpretation of very high resolution digital ortho photos (DOP) needs clear definitions and characteristics which are usually documented as interpretation key. Here, clearings are defined with a minimum area = 0.2ha, minimum width = 20m, and a tree crown cover < 10%.

Characteristics of windthrow areas depend on the time between storm events and the availabiltiy of optical remote sensing images but also on the status and progress of logging and clearing operations at the time of image acquisition. Typical characteristics for recognizing storm damages are: horizontal complete trees with root plates, root plates, stumps with fresh cross section, piles of logs for storage / skidding, piles of branches, skid roads and tracks, no or few ground vegetation.

Digitizing windthrow areas

Load and display German Geoadata using QGIS 2.4 following the Exercise: Displaying German Geobasis data (GBD) or load the saved project file .\GBData\display_gbd.qgs where the project coordinate reference system (CRS) is set to ETRS89/UTM32N (EPSG:25832).

Figure A: Clearing in a false color composite of a digital orthophoto (DOP20)
Figure B: Digitized boundary of a clearing based on a digital orthophoto (DOP20)
  1. Create a new shapefile layer
    1. Select Layer --> New --> New Shapefile Layer.
      • As layer type, select Polygon. Click the Specify CRS button and select ETRS89/UTM32N (EPSG:25832).
      • To add an attibute:
        • For the attribute's name type Class into the Name field of the New attribute section.
        • Select Whole number as data type.
        • Confirm with Add to attributes list.
      • Confirm with OK and enter the path and name (e.g. clearing.shp) in the following menu.
  2. Digitizing areas
    1. Select the new shapefile in the Layers window. Start the edit mode by clicking the Toggle editing button QGIS 2.0 Edit.png.
    2. Zoom in on a cleared area in the forest (Fig. A). Click Add feature QGIS 2.0 Addpolygon.png to start digitizing. Draw polygons according to the definition of clearings. Simply click the desired point on the canvas to start. After selecting a second point, the third point will construct a triangle and each additional point will add another vertex to a polygon. Finish the geometry by right-clicking and entering the attributes in the appearing window (just use an increasing number for the ID, and Class = 1 in case of a windthrow area). Take your time to get used to this way of digitizing -- you can always delete the last polygon by simply clicking Cancel in the attributes dialogue, or by selecting it QGIS 2.0 Select.png and deleting with the Delete selected QGIS 2.0 Delete selected.png button. Do not forget to save your changes by clicking again the Toggle editing button QGIS 2.0 Edit.png! Confirm Save to stop editing and save the changes permanently.
    3. Change the display style of the new polygon. Select the shapefile in the Layers window. Layer --> Properties --> Style --> Single Symbol. Click on "Simple fill" and change the Fill style: diagonal, Border width: 0.5, and the colors of "Colors Fill" and "Borders" according to your preferences. An example of a finished polygon can be seen in Fig. B.

Estimating area and perimeter

  1. Make sure that the edit mode of the vector polygon layer is switched off.
  2. Vector --> Geometry Tools --> Export/Add geometry columns. Select the vector layer clearings and click OK and Yes. Close the dialog with OK and Close.
  3. Select the clearing layer in the layers window. Right click Open Atrribute table. Report area of the clearing in hectares and perimeter in meters.

Using Google Maps for digitizing

Figure C: Digitized boundary of a clearing based on Google Maps using the Openlayers plugin

Web map services (WMS) like Google Maps, Bing Maps, Yahoo Maps and OpenStreemap use a special projected coordinate reference system called "Pseudo Mercator" or "Web Mercator".

  1. Select Web --> OpenLayers plugin --> Google Maps --> Google Satellite. Of course, you can also add a hybrid layer or try the layers from other providers.
      • If the Plugin doesn't exist you'll first have to install the Openlayers plugin using Plugins --> Manage and install plugins.

A new Layer Google Maps is loaded into the layers window. The project CRS is automatically set to WGS84/Pseudo Mercator (EPSG:3857). Check the actual project CRS Project --> Project Properties --> CRS, the checkbox 'on the fly' transformation is switched on. The EPSG code of the actual project CRS is also displayed on the lower right below the viewer.

  1. Select a raster or a vector layer from your region of interest in the layers window, right click Zoom to layer extent.
  2. Select the vector layer clearing and toggle the digitizing mode on (s.a.). Continue to digitize clearings but now using Google Maps as reference (Fig. C).
  3. Calculate area and perimeter of your polygon layer (s.a.) Important to note that the Layer CRS must defined as a metric CRS (eg. UTM) not as WGS84/Pseudo Mercator (EPSG:3857), otherwise you get wrong results for area and perimeter!
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