Manage data

In ArcGIS Pro, you typically work in a project that is saved on your computer. However, you don't always need to save a project. Sometimes your tasks involve data preparation and management, and you don't need to make maps or solve analysis problems. In these situations, you can start ArcGIS Pro without creating a project. You can then process your data and close the application without saving a project.

Overview

  • Video length: 9:49.
  • This video was created with ArcGIS Pro 2.9.

In this tutorial, you'll work with a number of datasets potentially useful to environmental restoration projects in and around the city of Christchurch, New Zealand. You'll preview and explore the data, examine its metadata, clip it to a focused area of interest, and process it for consistency of format and spatial reference. The goal is to organize a streamlined data collection in a geodatabase that can be shared by GIS professionals working on related projects in the same geographic area.

  • Estimated time: 60 minutes (including optional section)
  • Software requirements:
    • ArcGIS Pro Basic
Note:

The quick-start tutorials are updated at each software release. For the best experience, use an online help version that matches your software version.

Download the data

The magnitude 6.2 earthquake that struck Christchurch, New Zealand, on February 22, 2011, killed 185 people and caused massive property damage. In some badly damaged parts of the city, rebuilding houses and infrastructure was not a realistic option.

Earthquake damage
A building in the New Brighton neighborhood of Christchurch following the February 22, 2011, earthquake is shown. Photograph by Martin Luff. Downloaded from Wikimedia Commons and used under the Creative Commons 2.0 license.

In one such area, the Otakaro Avon River Corridor, a plan was developed to create a green spine of walkways, biking trails, and wetlands leading from the Avon River to the sea. Elsewhere in the city and surrounding area, many biodiversity and restoration projects are being carried out.

You'll download data potentially relevant to restoration projects in and around Christchurch. The data comes from different sources, has different spatial extents and coordinate systems, and is in different file formats.

Note:

To work with Excel files in ArcGIS Pro, the Microsoft Access Database Engine 2016 driver must be installed on your computer. Starting with ArcGIS Pro 3.0, you also need a version of Microsoft Windows Desktop Runtime that is compatible with the bit version (32 or 64 bit) of the driver. See Install the drivers to work with Microsoft Excel files for instructions.

  1. Go to the Manage Data overview page on ArcGIS Online.
  2. Click Download on the right side of the page.
  3. In the Downloads folder on your computer, right-click Manage_data.zip and extract it to a convenient location, such as C:\Temp.
    Note:

    This tutorial is a learning exercise. However, the earthquake restoration projects in and around Christchurch—including the Otakaro Avon River Corridor Regeneration Plan—are real and ongoing. Information about the 2011 earthquake is available from many sources, including the Wikipedia 2011 Christchurch earthquake article.

Start ArcGIS Pro without a template

When you start ArcGIS Pro without a template, you are not prompted to create a project. However, you have the option to save your work as a project at any time during your ArcGIS Pro session.

This tutorial assumes that some default application settings are used. You'll check these settings and change them if necessary before you start to work.

  1. Start ArcGIS Pro and sign in if necessary.
  2. On the start page, click the Settings tab Settings.
  3. In the list of side tabs, click Options. On the Options dialog box, under Application, click General.
  4. Under Set general options for ArcGIS Pro, expand Start ArcGIS Pro. If necessary, click Show the start page.
  5. Expand Create projects. Under Geodatabase, if necessary, click New default geodatabase for each project.
    Application settings
  6. On the Options dialog box, under Application, click Metadata. If necessary, set Metadata style to Item Description.
  7. Click OK.
  8. If you changed either the start page setting or the default geodatabase setting, close and restart ArcGIS Pro. Otherwise, click Back at the top of the settings page.
  9. On the start page, under New Project, click Start without a template.
    Start without a template

    The application starts with no open views.

Add a folder connection

You'll open the catalog view, make a folder connection to the tutorial data, and browse the data.

  1. On the ribbon, click the View tab. In the Windows group, click Reset Panes Reset Panes and click Reset Panes for Geoprocessing.

    This ensures that the Contents, Catalog, and Geoprocessing panes are open and that other panes are closed.

  2. On the View tab, in the Windows group, click Catalog View Catalog View.

    The catalog view opens. On the ribbon, the Catalog tab appears. The Contents pane updates to show the contents of the catalog.

    Note:

    The catalog view and Catalog pane are complementary. They have some functionality in common, but certain tasks, such as previewing data, can only be done in the catalog view. In this tutorial, you'll work with both the view and the pane. You'll also interact with the catalog through the Contents pane, which shows the contents of the active view, whether it's a map, a layout, or the catalog.

  3. Make the Catalog pane active and confirm that the Project tab is selected. Expand the Databases and Folders containers.
    Catalog pane

    When you start ArcGIS Pro without a template, a default geodatabase and home folder are created in a temporary directory in your user profile. You'll change these defaults later.

    To access the tutorial data, you need to make a folder connection.

  4. Make the catalog view active by clicking its view tab.
    The catalog view
  5. On the ribbon, the Catalog tab is selected. In the Create group, click Add Add and click Add Folder Connection Add Folder Connection.
  6. On the browse dialog box, browse to the location where you extracted the tutorial data (for example, C:\Temp). Click the Manage_Data folder to select it.
    Manage_Data folder selected on the browse dialog box.
    Note:

    You don't need to add a connection to the Supplemental folder. If your active portal is ArcGIS Enterprise, you will use data in this folder later in the tutorial; otherwise, you don't need it.

  7. Click OK.

    In the Catalog pane, the folder connection is added to the Folders container Folder Connection.

  8. In the Catalog pane, expand the Manage_Data folder.

    It contains three folders, two geodatabases, and a shapefile.

  9. Expand all the folders and geodatabases and their contents.
    The expanded Manage_Data folder

    The folders contain shapefiles and an Excel file. Each geodatabase contains two or three feature classes.

    If you get an error when you expand ChristchurchHeritageSites.xlsx, see the note in the Download the data section, above. You need to install the Microsoft Access Database Engine 2016 driver.

Preview data

Most of this data is relevant to Christchurch restoration projects. You'll examine the datasets to learn more about them. You'll work in the catalog view and the Contents pane, which shows the contents of the active view. For example, when a catalog view is active, the Contents pane shows the catalog contents.

  1. In the Contents pane (not the Catalog pane), under Project, expand Folders. Expand the Manage_Data folder and click Planning.gdb.
    Planning.gdb in the Contents pane

    The catalog view shows the two feature classes in the geodatabase: AvonRiver and PlanArea.

  2. In the catalog view, click PlanArea.
    PlanArea metadata

    The details panel displays the Metadata, Geography, and Table tabs for the selected feature class.

    Tip:

    If the details panel isn't showing, click the View tab on the ribbon. In the Options group, click Details Panel Details Panel to select it. (This button is also located at the bottom of the catalog view.) In the catalog view, you can move the vertical separator between the list of items and the details panel.

  3. In the details panel, click the Metadata tab if necessary. Review the PlanArea item description.
  4. In the details panel, click the Geography tab.

    The spatial data is displayed on a light gray basemap.

  5. On the Geography tab, click the feature on the map.

    The feature flashes and the Pop-up pane appears. The pop-up identifies the feature as Otakaro/Avon River Corridor Regeneration Plan. This is the area designated to be a green spine of walkways, bike paths, wetlands, and community spaces.

  6. Close the Pop-up pane.
    Note:

    Closing the pop-up causes the preview to redraw, and your symbol color may change.

  7. Click the Table tab and preview the attributes of the feature class.

    The table has one record with name and area attributes. To be familiar with the data, you should also know its coordinate system.

  8. In the catalog view, right-click the PlanArea feature class and click Properties Properties.
  9. On the Feature Class Properties dialog box, on the Source tab, scroll down and expand Spatial Reference.
    Feature Class Properties dialog box

    The projected coordinate system is WGS 1984 Web Mercator Auxiliary Sphere.

  10. Click Cancel.
  11. In the Contents pane, click the Boundaries geodatabase. In the catalog view, click CommunityBoards.
  12. Preview the metadata, geography, and table of this feature class.
  13. Open the CommunityBoards feature class properties and check its spatial reference.

    The projected coordinate system of this feature class is NZGD 2000 New Zealand Transverse Mercator. This is different from the coordinate system of the PlanArea feature class. Because New Zealand Transverse Mercator is a standard for New Zealand maps and data, one of your goals is to project all the datasets to this system.

  14. Click Cancel.
  15. Optionally, preview some of the other datasets in the Manage_Data folder.

Explore the data in a map

You'll add the datasets to a map to explore them further. You'll do this from the Catalog pane.

  1. In the Catalog pane, confirm that the contents of the Manage_Data folder are still expanded.
  2. Press the Ctrl key and click the following datasets to select them. Don't select the Excel file, the text file, or the Parks shapefile.
    • Historic_Places
    • Native_Bird_River_and_Open_Water_Habitat
    • River_Centerlines
    • District_Plan_Zones_Open_Space
    • Flat_Land_Recovery
    • CommunityBoards
    • Districts
    • Region
    • AvonRiver
    • PlanArea
  3. Right-click any of the selected datasets, point to Add To New Add To New, and click Map Add Map.

    A map view named Map opens. The Contents pane displays the map layers.

  4. In the Catalog pane, click Parks.shp to select it. Drag it onto the map.
    Map default view
    Your layers may be symbolized in different colors. They may also draw in a slightly different order.
  5. In the Contents pane, click the Region layer to select it. Drag it down in the Contents pane to a position just above the World Topographic Map layer.

    As you drag the layer, its position is indicated by a thin horizontal line.

  6. Drag the CommunityBoards layer above the Region layer. Drag the Districts layer above the CommunityBoards layer.

    Now the layers of administrative boundaries don't obscure features in other layers.

  7. In the Contents pane, click the PlanArea layer to select it. Right-click the layer and click Zoom To Layer Zoom To Layer.
    Map zoomed to PlanArea.

    Much of your data extends beyond the plan area and its surroundings. To create a compact collection of data focused on the area of interest, you'll clip the datasets to a smaller extent. This means you need to find a layer, or a feature in a layer, that has the desired extent. You'll look first at the Districts layer.

  8. In the Contents pane, click the Districts layer. Right-click the selected layer and click Attribute Table Open Table.

    Each district in the Districts layer is represented by a row in the attribute table.

  9. In the table, find the row with the value Christchurch City in the TA2015_NAME field.
  10. Click the row header (the gray square at the left edge of the row) to select the record.

    The corresponding feature is selected on the map.

  11. In the row of tools at the top of the table, click Zoom To Zoom To Selection.
    Selection of Christchurch City

    The Christchurch City district is a small area but still larger than you need because it includes Banks Peninsula, a circular outcropping that is not part of the urban area.

  12. In the row of tools at the top of the table, click Clear Clear Selection.
  13. Close the Districts table.

    You could explore other layers for a feature to represent your area of interest, but instead you'll search ArcGIS Living Atlas of the World.

Add data from ArcGIS Living Atlas of the World

ArcGIS Living Atlas of the World is a collection of authoritative geographic information curated by Esri.

Note:

If your active portal is ArcGIS Enterprise rather than ArcGIS Online, the layer added in this section is not available to you from ArcGIS Living Atlas. You can add an equivalent layer from the Supplemental folder in the data you downloaded:

  1. On the ribbon, on the Map tab, in the Layer group, click Add Data Add Data.
  2. On the browse dialog box, under Computer, browse to C:\Temp\Supplemental (or the directory where you downloaded the data).
  3. Click NZ Urban Rural Indicator Areas.lyrx to select it and click OK.
  4. Continue with step 10 in this section.

  1. Make the catalog view active.

    The Contents pane updates to reflect the catalog.

  2. In the Contents pane, under Portal, click Living Atlas Living Atlas.

    You'll filter the ArcGIS Living Atlas content to display boundary features in New Zealand.

  3. In the catalog view, next to the search box, click Filter Filter. In the drop-down list of filters, expand Categories and expand Boundaries. Click the Administrative option.

    In the catalog view, the ArcGIS Living Atlas content is filtered to the selected category.

  4. Close the drop-down list of filters.
  5. In the catalog view search box, type New Zealand urban rural and press the Enter key.

    The list is further filtered by your search terms.

  6. On the ribbon, click the View tab. In the Options group, click Details Panel Details Panel to deselect it.

    The details panel is hidden, giving you more room to see the layer names and information about them.

  7. At the bottom of the catalog view, click Tiles Display information on tiles.

    The items display as tiles with thumbnail images.

  8. Locate the NZ Urban Rural Indicator Areas - Current feature layer.
    Tile representation of the web feature layer in the catalog view
  9. Click the layer to select it. Right-click the selected layer and click Add To Map Add To Current Map.
  10. Make the map view active. Zoom in on the urban area of Christchurch, the large orange patch in the center of the view.
    Christchurch urban area
  11. In the Contents pane, confirm that the NZ Urban Rural Indicator Areas layer is selected.
  12. On the ribbon, click the Map tab, if necessary. In the Navigate group, click the Explore tool Explore Tool drop-down arrow and click Selected in Contents.

    Now, when you click a map feature, the Pop-up pane will show information for the layer (or layers) selected in the Contents pane.

  13. On the map, click the Christchurch urban area.

    The feature flashes on the map. The Pop-up pane confirms that the feature represents the urban area of Christchurch. You'll use this feature to define your clip extent.

    Pop-up pane

    You'll work with this layer throughout the tutorial, so you'll give it a shorter name.

  14. Close the Pop-up pane.
  15. In the Contents pane, right-click the NZ Urban Rural Indicator Areas layer and click Properties Properties.
  16. On the Layer Properties dialog box, on the General tab, replace the current name with Urban Area.
    General layer properties
  17. Click OK.

    The layer is renamed in the Contents pane.

Create a geodatabase in a new folder

As you process the starting data, you'll save your output datasets to a new geodatabase in a new folder. This is the geodatabase and folder you'll share with GIS specialists working on Christchurch restoration projects.

You'll set the new geodatabase and folder as the default locations for new data that you create. You'll also add the new folder to your list of favorites. Items that are favorites are readily available in any ArcGIS Pro project.

  1. Make the catalog view active.
  2. In the Contents pane, under Project, click the Databases container Database connections folder to select it. Right-click the selected item and click New File Geodatabase New File Geodatabase.
  3. On the browse dialog box, browse to the folder where you extracted the tutorial data (for example, C:\Temp). Double-click the folder to open it.

    The Manage_Data and Supplemental folders are listed. You'll create another folder to contain the new geodatabase and other files. You can do this in the process of creating the geodatabase.

  4. On the browse dialog box, click the New Item drop-down arrow and click Folder New folder.

    Browse dialog box with New Item drop-down menu selected

    The new folder is created. Its default name is editable.

  5. Rename the folder ChristchurchRenewal and press the Enter key.

    The new folder is selected.

  6. At the bottom of the browse dialog box, click Open to open the ChristchurchRenewal folder (which is empty).
  7. In the Name text box, type ChristchurchData as the name of your new geodatabase. Click Save.

    The new geodatabase is created and displayed in the catalog view next to the default geodatabase that was created when you started ArcGIS Pro.

    Catalog view of the two geodatabases

    The default geodatabase, marked with a home icon Default Geodatabase, is the one in which geoprocessing outputs are saved unless otherwise specified. Any geodatabase can be set as the default geodatabase.

  8. In the catalog view, click ChristchurchData.gdb to select it.
  9. On the ribbon, click the Manage tab. In the Project group, click Make Default Make Default.

    The home icon now appears on the ChristchurchData geodatabase.

    You'll add a folder connection to the new ChristchurchRenewal folder so you can access it directly instead of browsing to it.

  10. In the Contents pane, under Project, click the Folders container Folder Connection. Right-click the selected item and click Add Folder Connection Add Folder Connection.
    Tip:

    Earlier, you added a folder connection from the ribbon. You can also add connections from the Contents pane or the Catalog pane.

  11. On the browse dialog box, browse to the folder that contains the tutorial data. Click the ChristchurchRenewal folder to select it.
    Folder selected on the browse dialog box.
  12. Click OK.

    The new folder connection appears in the catalog view.

    You'll change the home folder in the same way that you changed the default geodatabase. The home folder is where output files that are not saved to a geodatabase (for example, layer files or shapefiles) are saved by default.

  13. In the catalog view, click the ChristchurchRenewal folder connection to select it.
  14. On the ribbon, click the Manage tab. In the Project group, click Make Default Make Default.

    In the catalog view, the ChristchurchRenewal folder is designated as the home folder.

    ChristchurchRenewal folder connection in catalog view

  15. On the ribbon, on the Manage tab, in the Organize group, click Add To Favorites Add To Favorites.
  16. At the bottom of the Contents pane, expand the Favorites container Favorites to see the folder.

    As a favorite, this folder connection is now available in any ArcGIS Pro project.

    Tip:

    Favorites can be accessed from the Contents pane when the catalog view is active or from the Catalog pane when the Favorites tab is selected. Right-click a favorite and click Add To Project Add to add it to your current project, or click Add To New Projects Add To New Projects to add it to all new projects automatically. To remove a favorite, right-click it and click Remove From Favorites Remove From Favorites.

Clip data and save it to the new geodatabase

You'll clip most of the data in the Manage_Data folder to the Christchurch urban area using the Pairwise Clip geoprocessing tool. You'll run the tool as a batch tool, which allows you to process multiple input datasets in one operation. The output data will be saved to the ChristchurchData geodatabase. Any input shapefiles will be converted to geodatabase format automatically.

Clipping features changes their geometry. For example, a river that crosses the boundary of the Christchurch urban area will be split at the boundary. Only the segment that lies inside the boundary will be preserved.

As mentioned earlier, you want your new data to be in the New Zealand Transverse Mercator coordinate system. Before you run the Pairwise Clip tool, you'll make a tool environment setting that projects the input datasets as needed to this coordinate system.

  1. Make the map view active.
  2. In the Contents pane, right-click the Urban Area layer, point to Selection, and click Make this the only selectable layer Make this the only selectable layer.
  3. On the ribbon, on the Map tab, in the Selection group, click the Select tool Select. On the map, click the Christchurch urban area feature to select it.
    Christchurch urban area selected

    When you run the Pairwise Clip tool, you'll specify the Urban Area layer as the clip layer. The tool will use the selected feature as the clip extent.

  4. Make the Geoprocessing pane active. In the search box, type pairwise clip.

    In the search results, Pairwise Clip (Analysis Tools) is the first result listed.

    Pairwise Clip tool

    Tip:

    To change the display of tools, at the bottom of the Geoprocessing pane, click Display tools with descriptions and details Display tools with descriptions or Display tools as a list Display tools as a list.

  5. In the search results, right-click the Pairwise Clip tool and click Batch.

    The Batch Pairwise Clip tool opens. A batch tool is a temporary tool that allows you to process multiple input datasets or other parameters. Most geoprocessing tools can be run as batch tools. You can save a batch tool to make it permanent.

  6. For Choose a batch parameter, confirm that Input Features is selected. Uncheck the Add output datasets to an open map check box.

    Batch Pairwise Clip tool

    You'll add the output datasets to a new map instead.

  7. Click Next.
  8. Next to Batch Input Features, click Add Many Add Many. Next to the search bar, check the Toggle All Checkboxes check box.

    All the layers in the map are selected. However, you don't want to clip all of them. The boundary layers should keep their territorial integrity, so you'll process them separately.

  9. In the list of batch input features, uncheck the check boxes for the following layers:

    • CommunityBoards
    • Districts
    • Region

    Batch pairwise clip input features

    The Urban Area layer is included with the input features to be clipped. That means that the layer will be clipped to its own selected feature, which is what you want.

  10. At the bottom of the drop-down list, click Add.
  11. For Clip Features, click the drop-down arrow and click Urban Area.

    When an input layer has a selection applied to it, a tip on the tool shows you how many features are being processed. See Geoprocessing tools, selections, and filters for more information.

  12. In the Output Feature Class box, delete the prefix PairwiseClip_OutFeatureClass_ from the output feature class name and leave the %Name% variable.
    Caution:

    Do not delete the entire path to the output geodatabase. Deleted paths may not regenerate correctly when you run batch tools.

    The output feature class path goes to the ChristchurchData geodatabase.

    Batch Pairwise Clip tool parameters

    The %Name% variable assigns the input layer name to the output dataset. Because you're saving the output data to a different location than the input data, you don't need a file name prefix (such as PairwiseClip_OutFeatureClass_) to prevent naming conflicts.

    Although map layers in different coordinate systems are aligned spatially through on-the-fly projection, you want your output data to be created in the standard NZGD 2000 New Zealand Transverse Mercator system. You'll make an environment setting to project the input datasets to this system as needed.

    Geoprocessing environment settings are parameters that are not built into a tool but are applied to the output data when the tool runs. In this case, using an environment setting means that you don't need to run the Project tool on datasets that are in the Web Mercator coordinate system.

  13. At the top of the Batch Pairwise Clip tool, click the Environments tab.
  14. Next to Output Coordinate System, click Select coordinate system Coordinate System.
  15. On the Coordinate System dialog box, under XY Coordinate Systems Available, expand Layers.

    The two coordinate systems used by layers in the map are listed.

  16. Click NZGD 2000 New Zealand Transverse Mercator to select it.
    Coordinate System dialog box
  17. Click OK.

    Input datasets in the Web Mercator coordinate system, such as PlanArea, will be projected to New Zealand Transverse Mercator when they are clipped.

  18. In the Geoprocessing pane, click Run Run.

    When the tool finishes, a completion message appears at the bottom of the pane.

View the data in the geodatabase

You'll examine the new datasets in the ChristchurchData geodatabase.

  1. Make the catalog view active.
  2. In the Contents pane, under Project Project, expand Databases. Click ChristchurchData.gdb.
  3. At the bottom of the catalog view, click Column Display information for each item in columns. to display items as a list.
    Geodatabase contents

    There are nine feature classes in the geodatabase.

  4. Click the PlanArea feature class to select it. Open its feature class properties and check the spatial reference.
    Spatial reference information on the Feature Class Properties dialog box

    The dataset has been projected to the New Zealand Transverse Mercator coordinate system as specified by the geoprocessing environment setting.

  5. Click Cancel.

    You'll explore the data in a new map.

  6. Click the AvonRiver feature class to select it. Press the Shift key and click Urban_Area to select all the feature classes.
  7. Right-click any selected feature class and click Add To New > Map Add Map.

    A new map view named Map1 opens.

  8. Make sure that Map1 is the active view. In the Contents pane, move the Urban_Area layer to a position just above the World Topographic Map basemap layer.
    New map with clipped layers
    Your symbol colors will be different.
  9. In the Contents pane, press the Ctrl key and click the Urban Area layer to deselect it.
  10. Zoom out on the map to confirm that all the layers are clipped to the extent of the Christchurch urban area.

    You no longer need to work with the first map.

  11. Make the map view named Map active. Click Close Close on its view tab.

    Map1 is now the active view.

    Note:

    The closed map is still part of the project. It can be reopened from the Maps container Maps in the Catalog pane or from the Contents pane of a catalog view.

Copy the boundary layers to the geodatabase

When you ran the Pairwise Clip tool, you didn't process the boundary layers because you wanted to preserve their territorial integrity. However, the boundary layers cover the entire Canterbury region, a larger area than you need.

You'll make a spatial selection of the features in the CommunityBoards and Districts layers that have area in common with the Christchurch urban area. You'll copy the selected features to the ChristchurchData geodatabase without clipping them. You'll leave out the Region layer. It contains a single feature representing the Canterbury region and is too general for your needs.

  1. On the ribbon, click the Map tab, if necessary. In the Selection group, click Select By Location Select By Location.

    The Select By Location tool opens.

    Note:

    For convenience, some geoprocessing tools open in a floating window. You can also open these tools in the Geoprocessing pane.

    The Input Features parameter is used to specify the features you want to select. You want to select features from the CommunityBoards and Districts layers. These layers aren't in the map, so you need to browse to the datasets.

  2. Next to the Input Features box, click Browse Browse.
  3. On the browse dialog box, under Project, click Folders. Browse to Manage_Data > Boundaries.gdb.
    Input Features browser
  4. Press the Ctrl key and click CommunityBoards and Districts to select both feature classes. (Don't select Region.) Click OK.

    In the Select By Location window, the two datasets are added to the input features list.

  5. Confirm that the Relationship parameter is set to Intersect.
  6. For Selecting Features, click the drop-down arrow and click Urban_Area.
    Select By Location parameters

    The Select By Location tool makes selections on map layers. Since the CommunityBoards and Districts datasets aren't represented by map layers, the tool will create layers, add them to the map, and select the appropriate features.

  7. Click OK.

    When the tool finishes, two layers, Districts_Layer and CommunityBoards_Layer, are added to the map. At the bottom of the map view, you see that 10 features are selected.

    Count of selected Features in map view

    To see the selected records, you can open the layer attribute tables, but it's not necessary. You'll copy the selected features to new feature classes in the ChristchurchData geodatabase.

    The two boundary layers are relevant to your final data because restoration projects may be subject to local political administration. The extent of the layers is larger than your area of interest but smaller than the original extent of the data. The boundaries of the 10 selected features remain intact.

    You'll run the Copy Features tool as a batch tool. Because the output datasets will use the names of the input layers, you'll rename the layers before you run the tool.

  8. In the Contents pane, click the Districts_Layer layer to select it. Press the F2 key to edit the layer name. Type Districts and press the Enter key.
  9. In the same way, rename the CommunityBoards_Layer layer to CommunityBoards.
    Tip:

    You can also click a selected layer in the Contents pane to make its name editable. Alternatively, you can double-click the layer to open the Layer Properties dialog box and change the name on the General tab.

  10. At the top of the Geoprocessing pane, click Open Another Tool Open Another Tool. In the list of options, click Open Another Tool to search for a tool you haven't used.
  11. In the search box, type copy features.

    In the search results, Copy Features is the first result.

    Geoprocessing pane showing Copy Features tool in search results

  12. Right-click the Copy Features tool and click Batch.

    The Batch Copy Features tool opens. In this case, you'll accept the default setting to add the output datasets to the open map.

  13. Under Choose a batch parameter, confirm that Input Features is selected and click Next.
  14. Under Batch Input Features, click the parameter drop-down arrow (not the Add Many button) and click Districts.
  15. In the next empty input features box, click the drop-down arrow and click CommunityBoards.

    The tool displays the number of selected features in each layer.

  16. In the Output Feature Class text box, delete the prefix CopyFeatures_OutFeatureClass_ and leave the variable %Name%.
    Caution:

    Do not delete the entire path to the output geodatabase. Deleted paths may not regenerate as desired when running batch tools.

    Batch Copy Features parameters

    You don't need to make an environment setting for the output coordinate system. Both input layers are in the NZGD 2000 Transverse Mercator coordinate system.

  17. In the Contents pane, turn off the CommunityBoards and Districts layers.

    This will reduce confusion when new layers with the same names are added to the map.

  18. In the Geoprocessing pane, click Run Run.

    When the tool finishes, the new layers are added to the map. You no longer need the original layers with the selected features.

  19. In the Contents pane, right-click the Districts layer that is turned off and click Remove Remove.
    Tip:

    If you make a mistake, click Undo Undo on the Quick Access Toolbar to undo your most recent action.

  20. Remove the CommunityBoards layer that is turned off in the same way.
  21. In the Contents pane, move the Districts layer to a position just above the World Topographic Map layer. Move the CommunityBoards layer above the Districts layer.
  22. Right-click the Districts layer and click Zoom To Layer Zoom To Layer.
    Map zoomed to district.

    Both layers extend beyond the Christchurch urban area because they are not clipped. However, only the features that intersect the urban area are included.

  23. Make the catalog view active.

    The ChristchurchData geodatabase now includes the new CommunityBoards and Districts feature classes.

Update metadata

The metadata from your input datasets in the Manage_Data folder was copied to the new datasets in the ChristchurchData geodatabase. You'll review the metadata to correct spelling errors and update item descriptions. You'll also create a thumbnail image that will appear in the metadata.

  1. In the catalog view, click the Native_Bird_River_and_Open_Water_Habitat feature class. Right-click the selected feature class and click Edit Metadata Edit Metadata.

    A metadata view opens. Wavy red lines appear under several words. These include spelling errors, unrecognized technical terms, and unusual place-names.

    Note:

    If you don't see the wavy red underlines, you need to enable spell-checking.

  2. Scroll through the metadata view.

    The Description field contains two adjacent spelling mistakes.

    Metadata with typos
  3. Right-click the first mistake (acommpany) and click the suggested replacement accompany.

    The mistake is corrected and the red underline is removed.

  4. Correct the spelling mistake Emvironment to Environment in the same way.

    At the bottom of the Description field, a note describes changes that have been made to the original source data. You'll add another note.

  5. In the Description field, click at the end of the text and press the Enter key to add a second bullet point.
  6. Type or copy the following sentence: The data was converted to geodatabase format and clipped to the Christchurch urban area.
  7. On the ribbon, on the Metadata tab, in the Manage Metadata group, click Save Save.
  8. Close the metadata view.
  9. On the ribbon, click the View tab. In the Options group, click Details Panel Details Panel to select it. In the details panel, click the Metadata tab if necessary.

    The spelling errors in the description are fixed. The note you added appears at the bottom of the description.

  10. In the details panel, click the Geography tab.

    The data is previewed on a light gray basemap.

  11. On the ribbon, click the Preview tab. In the Preview group, click Basemap Basemap and click Oceans.

    The basemap changes in the geography preview.

  12. In the Thumbnail group, click Create Create.
  13. In the details panel, click the Metadata tab.

    You need to refresh the metadata to see the new thumbnail.

  14. Click a different dataset in the catalog view and click Native_Bird_River_and_Open_Water_Habitat again.

    The metadata displays with the new thumbnail image. Thumbnail images can also be displayed in item pop-ups when you browse items in the Catalog pane.

    Metadata with thumbnail

  15. Optionally, edit the item descriptions and create thumbnail images for some other datasets.
    Note:

    All the datasets have item descriptions except the Urban_Area feature class, which was derived from a ArcGIS Living Atlas layer. Optionally, you can import this item description:

    1. Select the Urban_Area feature class in the catalog view. On the ribbon, on the Catalog tab, in the Metadata group (not the Create group), click Import Import.
    2. On the Import Metadata dialog box, click Browse Browse. Under Portal, click Living Atlas Living Atlas and search for NZ Urban Rural Indicator Areas - Current.
    3. Click the layer to select it and click OK. Confirm that the layer URL is added to the Import Metadata dialog box.
    4. Click OK to import the metadata.

Save layer files

Default layer symbology is sometimes less than ideal. It's not your job to make cartographic decisions about the Christchurch data, but it may be helpful to create a few layer files as a starting point for others to visualize the data.

A layer file saves the properties of a layer, such as its name, symbology, and path to source data, without saving the data itself. When you add a layer file to a map, as long as the source data is available, the layer properties are applied automatically.

  1. Make the map view active.
  2. In the Contents pane, right-click the Historic_Places layer and click Zoom To Layer Zoom To Layer.
  3. In the Contents pane, click the symbol under the Historic_Places layer name.

    The Symbology pane appears and displays options for formatting point symbols.

  4. At the top of the Symbology pane, click the Gallery tab, if necessary.
  5. Next to the search box, click the All styles drop-down arrow and click Project styles.

    The Project styles setting includes the styles added by default to your ArcGIS Pro project, as well as any styles you add yourself. The All styles setting includes all system styles installed with ArcGIS Pro. Choosing Project styles narrows the scope of symbol searches.

  6. In the search box, type pin and press the Enter key.
  7. Under ArcGIS 2D, click the Tear Pin 2 symbol to select it.
    Tear Pin 2 symbol

    The symbol is changed in the Contents pane and on the map.

  8. In the Symbology pane, click the Properties tab.
  9. Under Appearance, change Size to 12 pt and click Apply.
  10. In the Contents pane, right-click the Historic_Places layer name, point to Sharing, and click Save As Layer File Layer File.

    A browse dialog box opens to the ChristchurchRenewal home folder.

  11. In the Name box, accept the default name, Historic_Places.lyrx. Click Save.
  12. Optionally, create layer files for some other layers.

    For example, to symbolize the Urban_Area layer with a hollow fill symbol, search for outline in the symbol gallery. To find suitable symbols for the Parks and AvonRiver layers, search for park and water in the symbol gallery.

    While the map view is active, you'll reset the Explore tool setting that you changed earlier.

  13. On the ribbon, on the Map tab, in the Navigate group, click the Explore drop-down arrow Explore Tool and click Topmost Layer.
  14. Make the catalog view active. In the Contents pane, under Folders, click the ChristchurchRenewal folder.

    The layer file appears in the catalog view.

    Layer file in folder

    The ChristchurchData geodatabase is complete. The ChristchurchRenewal folder contains the geodatabase and your layer file. The folder can now be put on a network or distributed by standard file sharing methods. It can also be uploaded to ArcGIS Online as a .zip file.

    You can also share individual datasets as web layers to ArcGIS Online. To learn about this workflow, see the Share a web map tutorial.

    During this tutorial, no project file was saved to your computer (unless you saved the project on your own). The ChristchurchRenewal folder and ChristchurchData geodatabase are saved independently of any ArcGIS Pro project. The working maps you made were useful for evaluating data and choosing input layers for tools, but you don't need to keep them.

  15. If you're going on to the optional section, leave ArcGIS Pro open. Otherwise, on the ribbon, click the Project tab. In the list of side tabs, click Exit. Click No on the prompt to save changes.

Load data (optional)

Your data includes a feature class named Historic_Places. As you saw when you first browsed the contents of the Manage_Data folder, there is also an Excel file called ChristchurchHeritageSites. This file contains records for two locations that aren't included in the Historic_Places dataset.

You can add features from one dataset to another, a process called loading data, with the Append geoprocessing tool. The two heritage sites that you want to add are rows in an Excel sheet and must be converted to point features before you can load the data.

After you load the converted point features into the Historic_Places feature class, you don't need to keep them in a separate dataset. For this reason, you'll create the point features in a temporary memory workspace and load them into the Historic_Places dataset from this workspace. When you close ArcGIS Pro, the memory workspace will be cleared.

  1. Make the catalog view active, if necessary. In the Contents pane, under Databases, click the ChristchurchData geodatabase.
  2. In the catalog view, click the Historic_Places feature class. Preview its metadata, geography, and table.

    The feature class contains 322 points of historic interest in the Christchurch urban area. The table attributes include Name and Address fields. The RegID field stores a numeric identifier of up to four digits.

  3. In the Contents pane, under Folders, expand the Manage_Data folder, if necessary. Expand the Historic folder under it and click ChristchurchHeritageSites.xlsx to select it.
  4. In the catalog view, click the HeritageSites$ sheet and preview its table.
    Note:

    If a red exclamation point appears next to ChristchurchHeritageSites.xlsx, you need to install the Microsoft Access Database Engine Driver. See the note in the Download the data section, above. After the driver is installed, on the Catalog tab, in the Organize group, click Refresh Refresh. You can now click ChristchurchHeritageSites.xlsx and see the HeritageSites$ sheet.

    The table has X and Y columns that store longitude and latitude values in decimal degrees. These coordinates allow you to convert the locations to spatial data.

    In addition, there are Name and Address columns. There are also several other columns, including one named RegisterNumber. This column stores numeric identifiers, just like the RegID field in the Historic_Places table.

    You'll add the Excel sheet as a table to the map and convert the table to point features. This will allow you to confirm that the two heritage sites don't already exist in the Historic_Places layer.

  5. In the catalog view, right-click HeritageSites$ and click Add To Map1.
  6. Make the map view active.

    At the bottom of the Contents pane, the HeritageSites$ table is listed under Standalone Tables.

  7. Right-click the HeritageSites$ table and click Display XY Data Display XY Data.

    The Display XY Data tool opens.

    The Input Table parameter defaults correctly to HeritageSites$. The X Field and Y Field parameters default correctly to the X and Y fields in the table. The coordinate system defaults to GCS_WGS_1984. Most latitude-longitude values are stored in this system, so it's safe to assume this setting is correct.

  8. In the Output Feature Class text box, delete the entire path. In the empty box, type memory\Sites.

    Display XY Data parameters.

    The path name memory\ specifies that the output will be written to the memory workspace rather than to a geodatabase. The name Sites can be any name that you choose.

  9. Click OK.

    When the tool finishes, a layer named Sites is added to the top of the Contents pane.

  10. In the Contents pane, right-click the Sites layer and click Zoom To Layer Zoom To Layer.
  11. In the Contents pane, turn the Sites layer off and on to see that there are no features from the Historic_Sites layer at these two locations.

    This confirms that you can load the data from memory without duplicating existing features.

  12. Make the catalog view active. In the Contents pane, under Databases, click ChristchurchData.gdb.
  13. In the catalog view, click Historic_Places, if necessary, to select it. Right-click the selected feature class and click Load Data.

    The Append tool opens in the Geoprocessing pane. A message at the top of the pane alerts you that the tool does not create a dataset—it modifies the target dataset. In the tool parameters, the Target Dataset is automatically set to Historic_Places. This is the dataset into which features will be loaded.

  14. Click the Input Datasets drop-down arrow and click Sites.

    If the input and target datasets have exactly the same fields, you can use the default Field Matching Type setting: Input fields must match target fields. However, in this case, some of the fields don't match, so you need to change the setting.

  15. Click the Field Matching Type drop-down arrow and click Use the field map to reconcile field differences.

    You can match fields manually when the field names are different but the attribute values are compatible.

    In the Field Map area of the tool, the output fields represent fields in the target dataset. The RegID and Accuracy fields have (0) after their name because they don't have matching field names in the input dataset. The Name and Address fields have matching field names.

    Field Map area of Append tool with default settings

  16. In the list of output fields, confirm that RegID is selected (highlighted in gray). Click Add New Source. In the drop-down list of fields, check the box for the RegisterNumber field and click Add Selected.
    Field Map area of Append tool with updated settings

    In the Output Fields list, the RegID field is no longer followed by (0) because you matched it manually. When the data is loaded, values from the RegisterNumber field in the input table will be appended to the RegID field of the target table.

    You'll leave the Accuracy field unmatched because it doesn't have an equivalent attribute in the input dataset. When the tool runs, attributes will be processed as follows:

    • Fields in the input table that match fields in the target table will have their attribute values appended to the corresponding fields in the target table.
    • Unmatched fields in the input table, such as X and Y, will not be added to the target table.
    • Unmatched fields in the target table, such as Accuracy, will have <null> values for appended records.

    Note:

    The input dataset is not in the New Zealand Transverse Mercator coordinate system; it is in the WGS_1984 geographic coordinate system. However, when the features are loaded, they will be projected automatically.

  17. Click Run Run.
  18. When the tool finishes, in the catalog view, click Historic_Places. In the details panel, click the Table tab and scroll to the bottom of the table.

    Historic_Places table in the catalog view details panel

    Two records have been added to the table: one for a site called Moncks Cave and one for a site called Rotten Row Baches. The new records have values in the Name, Address, and RegID fields. The Accuracy field has <Null> values.

  19. Make the map view active. In the Contents pane, turn off the Sites layer.
    Map showing the two appended point features

    The new features have been added to the Historic_Places layer in the correct locations.

    The ChristchurchData geodatabase is complete. The ChristchurchRenewal folder, containing the geodatabase, one or more layer files, and any documentation or readme files you want to add, is ready to be shared with restoration teams.

  20. On the ribbon, click the Project tab. In the list of side tabs, click Exit. Click No on the prompt to save changes.

    When your ArcGIS Pro session ends, the memory workspace is cleared.

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