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Info

This guide was created by the staff of the GIS/Data Center at Rice University for the custom course - ESCI 545 Hydrocarbon Systems Analysis - and is to be used for individual educational purposes only. The steps outlined in this guide require access to ArcGIS Pro software and data that is available both online and at Fondren Library.

The following text styles are used throughout the guide:

Explanatory text appears in a regular font.

  1. Instruction text is numbered.
  2. Required actions are underlined.
  3. Objects of the actions are in bold.

Folder and file names are in italics.

Names of Programs, Windows, Panes, Views, or Buttons are Capitalized.

'Names of windows or entry fields are in single quotation marks.'

"Text to be typed appears in double quotation marks."

Info

Presentation Slides

PlayMapping.zip

Info
Course Objective: Use GIS workflows to collate and synthesize datasets to create geologic and play elements maps that will be used in petroleum system and risk analysis of potential opportunities and plays.


Table of Contents

Getting Started

For more practice navigating the ArcGIS Pro interface, check out our short course: Introduction to ArcGIS Pro

Creating a New Project in ArcGIS Pro

  1. From the Start menu, launch ArcGIS Pro.
  2. When ArcGIS Pro opens, under the New Blank Template section, click the Map project template.
  3. In the 'Create a New Project' window, for Name, type "PlayMapping".
  4. For Location, click the Browse... button to the right.
  5. In the 'Select a folder to store the project.' window, click Computer in the left column and click Desktop in the right column and click OK.
  6. In the 'Create a New Project' Window, click OK.
  7. Maximize the ArcGIS Pro application window.

...

Editing the New Map 

A map is a project item used to display and work with geographic data in two dimensions. The first step to visualizing any data is creating a new map. The Ribbon runs horizontally across the top of the ArcGIS Pro interface. Tools (buttons) are organized into tabs along the Ribbon.

 You will notice that a new Map View opens in the main section of ArcGIS Pro. The panel on the left side of ArcGIS Pro is called the Contents pane. After creating a new map, the The Contents pane now displays the default Map title and automatically adds the Topographic basemap layer to the map.

The panel on the right side of ArcGIS Pro is called the Catalog pane. After creating the first map, a new The Maps section has been added to is at the top of the Project tab within the Catalog pane.

...

  1. Above the Ribbon, on the Quick Access toolbar, click the Save button.

Data Management

For more practice with Data Management, check out our short course: Introduction to GIS Data Management

...

  1. In the Contents pane, right-click HST.jpg then click Zoom to Layer.
  2. In the Contents pane, click HST.jpg so that is highlighted in light blue. From the Ribbon, click  the Imagery tab and then click the Georeference button. 


  3. Click Add Control Points.


  4. Left-click the top left corner of the HST JPG. This selects this point on the JPG to georeference. If you need to zoom in and pan around to see the corners of the JPG, you can move the mouse scroll wheel to zoom and click and drag the mouse scroll wheel to pan.
  5. Right-click anywhere on the map. This opens up a Target Coordinates pop-up box, in which you can manually enter X and Y values.
  6. Type X : -104.5, Y : 33 and click OK. The x-value is the West coordinate and it is negative because we are in the Western Hemisphere. The y-value is the North coordinate.

    Image Modified
  7. In the Contents pane, right-click HST and click Zoom to Layer.
  8. Repeat steps 5-8 for the bottom right corner of HST, but type X : -103.5, Y : 32
  9. Repeat steps 5-8 for the bottom left corner of HST but type X : -104.5, Y : 32.
  10. Repeat steps 5-8 for the top right corner but type X : -103.5, Y : 33
    Your georeferenced HST should look like this:
    Image Modified

  11. From the Georeferencing tab, click Save


  12. Then click Close Georeference.


  13. Above the Ribbon, on the Quick Access toolbar, click the Save button.

...

  1. In the Catalog pane, expand the Databases section.
  2. Right-click PlayMapping.gdb and select New > Feature Class
  3. Name it "HSTPoints"
  4. Under the Feature Class Type drop-down box, select Point.
    Image Modified
  5. Click Next twice. 
  6. In the Spatial Reference section, under the Layers section, select the NAD 1927 projection. 
  7. Click Next twice again.
  8. Click Finish.
  9. If the new feature class did not automatically iadd to your map: From the Catalog pane in the Databases section, expand PlayMappping.gdb. Right-click HSTPoints and select Add to Current Map
  10. In the Contents pane, right-click HSTPoints and select Attribute Table
  11. From the top of the attribute table, next to the Field: section, click the Add button. 

  12. A new Fields view table appears. In the third row of the Field Name column, type "Thickness"
  13. Change the Data Type to Short Integer by clicking the drop-down box then selecting Short

    Image Modified
  14. From the Ribbon, in the Fields tab, click the Save button.
  15. Close the Fields view table by clicking the X at the top right corner of Fields: HSTPoints
  16. From the Ribbon, select the Edit tab.
  17. From the Edit tab, in the Features group, click CreateA new pane, Create Features, opens on the right side of the screen.


  18. From the Create Features pane, click HSTPoints and select the Point button (first in list).

     
  19. In the Map View, click to add a point on the topmost left point displayed on the HST.jpg
  20. In the Attribute Table, a new row has been generated for this newly created point. Click in the Thickness cell for this row and type "7". 
  21. Repeat steps 19 and 20 for all points on HST.jpg.
  22. From the Edit tab, in the Manage Edits group, click Save
  23. Click Yes for the 'Save all edits?' pop-up window. 
  24. In the Edit tab, navigate to the Selection section and click the Clear button to unselect any points.
  25. Close the Create Features pane.
  26. Close the Attribute Table
  27. Above the Ribbon, on the Quick Access toolbar, click the Save button.

Interpolation

This sections steps through how to interpolate a raster surface from points using a natural neighbor technique. For more practice with Interpolation, check out our short course: Data Interpolation and Extraction. For more information on Natural Neighbor Interpolation in ArcGIS Pro, check out this tool reference: Natural Neighbor (Spatial Analyst)

  1. From the Ribbon, click the Analysis tab.
  2. From the Analysis tab, in the Geoprocessing group, click the Tools button. A new pane, Geoprocessing, will appear on the right side of the screen. 

  3. In the Geoprocessing pane, type "Natural Neighbor" into the 'Find Tools' search bar. 
  4. Select Natural Neighbor (Spatial Analyst Tools).
  5. Under Input point features, click the drop-down menu and select HSTPoints.
  6. Under Z value field, choose Thickness.
  7. Under Output raster, change the name to HST_Interp_NN.
  8. When your Geoprocessing pane looks like this, click Run.

    Image Modified

    Your output raster should look like this:
    Image AddedImage Removed
  9. Above the Ribbon, on the Quick Access toolbar, click the Save button.

...

  1. From the Ribbon, click the Analysis tab.
  2. From the Analysis tab, in the Geoprocessing group, click the Tools button. The Geoprocessing pane will appear on the right side of the screen. 
  3. In the Geoprocessing pane, type Contour
  4. Select Contour (Spatial Analyst Tools).
  5. From the Input raster drop-down menu, select HST_Interp_NN.
  6. Under Output polyline features, type "HST_Interp_NN_Contour".
  7. Under Contour interval type "10".
  8. Leave the Base contour as 0. 
  9. Leave the Z factor as 1. If you were using a different thickness than feet, you would want to input the conversion factor here.
  10. When your Geoprocessing panel looks like this, click Run.

    Image Modified
  11. Above the Ribbon, on the Quick Access toolbar, click the Save button.

...

  1. From the Ribbon, click the Analysis tab.
  2. From the Analysis tab, in the Geoprocessing group, click the Tools button. The Geoprocessing pane will appear on the right side of the screen. 
  3. In the Geoprocessing pane, type Excel to Table
  4. Select Excel to Table (Conversion Tools).
  5. For Input Excel File, click the Browse button.
  6. On the left side of the Browse window, click Folders.
  7. On the right side of the Browse window, double click the PlayMapping folder and choose IGOR_masterlist
  8. Under Output Table, name the table GIS_Wells.
  9. From the Sheet drop down, choose the GIS_Wells sheet. This ensures that the GIS_Wells sheet will be the data converted from an excel table to a geodatabase table. 
  10. When your Geoprocessing pane looks like this, click Run.

    Image Modified
  11. In the Contents pane, right-click the GIS_Wells table and select Display XY Data.
  12. Name the layer "GIS_Wells_Pts"
  13. Check that the X Field states "longitude" and the Y Field states "latitude". 
  14. For Coordinate System, use the dropdown menu to select Current Map [GISWorkshop]. The coordinate system should now be GCS_North_American_1927. 
  15. When your Geoprocessing pane looks like this, click Run.

    Image Modified
  16. In the Contents pane, rick-click on GIS_Wells_Pts and select Zoom to Layer.
  17. In the Contents pane, right-click GIS_Wells_Pts and select Label.
  18. Right-click GIS_Wells_Pts and select Label PropertiesA new pane, Label Class, will open on the right side of the screen.
  19. Under the Expression box, clear the current input. 
  20. Under the Fields box, double click api_number. The Expression box should now read $feature.api_number.
  21. When your Label Class pane looks like this, click Apply.

    Image Modified
  22. Above the Ribbon, on the Quick Access toolbar, click the Save button.

...

  1. In the Catalog pane, expand PlayMapping.gdb.
  2. Right-click on geologic_features_poly and select Add to Current Map
  3. In the Contents pane, right-click on geologic_features_poly and select Symbology
  4. From the Symbology pane, use the dropdown menu to select Unique Values
  5. Change the Field 1 selection to FEATURE
  6. From the Color Scheme drop-down, select the color scheme that you would like. 
  7. From the Ribbon, click the Analysis tab.
  8. From the Analysis tab, in the Geoprocessing group, click the Tools button. The Geoprocessing pane will appear on the right side of the screen. 
  9. In the Geoprocessing pane, type Spatial Join
  10. Select Spatial Join (Analysis Tools).
  11. Under Target Features, select GIS_Wells_Pts.
  12. Under Join Features, select geologic_features_poly
  13. Rename the Output Feature Class as GIS_Wells_SpatialJoin
  14. Retain the default setting of Join_one_to_one for the Join Operation.
  15. Retain all other default settings
  16. When your Geoprocessing pane looks like this, click Run.

    Image Modified
  17. In the Contents pane, right-click on GIS_Wells_Pts and select Remove.
  18. In the Contents pane, double-click on GIS_Wells_SpatialJoin and rename it GIS_Wells
  19. Above the Ribbon, on the Quick Access toolbar, click the Save button.