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Working in 3D using digital elevation models

Learn to visualize, re-color, and make data 3D in ArcScene with ice elevation and bed elevation data in Antarctica. Follow steps to add shadows, examine rock above sea level, and create cross-sections.

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Working in 3D using digital elevation models

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  1. Working in 3D using digital elevation models An example using ArcScene to investigate ice elevation and bed elevation data in Antarctic

  2. Introduction • In this exercise we will use raster data. • Each Raster is a collection of equally spaced pixels much like digital images. • Rasters hold information about where they are in the world, how big the pixels are and how big the grid is. • Each pixel holds a value, this could refer to: • Colour (as in an image) • Elevation (these are called digital elevation models) • Other science data like temperature or salinity.

  3. Step 1:visualize the surface • Open an ArcScene project. • Using the add data button bring the Ice_Surface digital elevation model (DEM) into your project. • Click and drag your mouse to rotate the data. • Experiment with the Navigation toolbar. • The bird symbol allows you to “fly” through your data, using this may take a little practice! (Tip - use the escape button if you need to stop flying). add data button Navigation toolbar

  4. Antarctic ice surface

  5. Step 2:Re-colour the dataset • Right click on the name of the layer in the pane on the left hand side and open the Properties>Symbology tab. • First let’s re-colour the data to something that looks cold like an ice surface. Use the drop down box next to the “colour ramp” to change the colour to a shade of blue, going from dark to light. • Click apply.

  6. Step 3: make the data 3D • Go back into the Properties box (Right click the layer) and click on the Base Heights tab. • Click the second radio button to obtain heights of layer from surface, this makes the surface 3d based on the information in the layer. • Set the Z conversion to 50, this emphasises the height so that we can see it at a continental scale. • Click OK.

  7. Step 4:Add shadows • Before exploring your data let’s add some shadows. • From the view menu at the top of the screen, select Toolbars and click on 3D Effects. The toolbar shown below appears. • Click on the sun/shadow symbol. • Turn the lighting on. • Now use the navigation toolbar to zoom in and explore your data in 3D. 3d effects toolbar

  8. Step 5: add the bed In this step we will add a dataset representing the height of the bed of the ice-sheet - the interface between ice and rock at current sea level. • Using the Add data button bring in the Bed_surface dataset. • The bed of the ice is below the ice surface, so turn the ice-surface layer off by un-clicking the small tick to the left of the data layer. • Use the same techniques we have just learnt to colour your data using the Symbology tab, and make the data 3D using the Base Heights tab (remember to set the Z conversion to 50). • Add shadow (make sure you shadow the appropriate layer). • Explore your data using the navigation toolbar.

  9. Antarctic ice surface

  10. Step 6: rock above sea level? (a) In this step we test how much of Antarctica would be above sea-level if It had no ice-sheets. To do this we exclude some of the data from the Symbology. • Go back into the Symbology of the Bed_Surface layer. Can you remember how to do this? • In the white pane on the left-hand side of the pop-up window it shows us that our data is being symbolized by the “Stretched” method. Change this to Classified. This brings up a different set of options.

  11. Step 6: rock above sea level? (b) • First change the number of classes to at least 12. • Next click on the Classify button - This brings up another window with many options - don’t worry all we need to do is exclude some data so click on the Exclusion... button. • We only want to symbolize the data above sea level, so write “-7000 - 0” in the window (i.e. all the data below zero). • Click OK twice until you are back at the main Symbology window. • Finally change your colour ramp to something appropriate and click OK. • Your screen should look something like this...

  12. As you can see, Antarctica above sea-level looks very different.

  13. Step 7:Cross sections (a) • In this step we will use the 3D Analysttoolbar in ArcMap to make a cross section of each dataset. • Save your ArcScene project, close it down and open a new ArcMap project. • Add the Ice_Surface DEM to your project. • Click on the View menu at the top of the screen, then choose the Toolbars option and tick 3D Analyst. 3D Analysttoolbar

  14. Step 7:Cross sections (b) • Use the Interpolate Line button to draw a line across your dataset. • left click on the map to start the line and double click to end it (it is best to draw your line from left to right or top to bottom). • Now use the Create Profile Graph button to create a cross sectional profile. Interpolate Line button Create Profile Graph button

  15. Step 8: interpreting your cross section (a) • Look at the map on the next slide. • Can you identify the features on your cross section that are on your map? • The features from our line are on the slide after the map.

  16. Step 8: interpreting your cross section (b) See below for an interpretation of our cross section.

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