Goals and Background:
For this assignment each student was assigned to create a project dealing using ArcCollector. The goal for this students project was to use ArcCollector to figure out how much of an effect the water has on the
atmospheric conditions of the Carson Park Isthmus where recreational areas have
been created.
The plan is to record 60 points equally spaced out around Carson Park, and gather data for nine different domains. The domains are:
- Temperature (F)
- Land Cover
- Wind Speed
- Wind Direction
- Wind Chill
- Dew Point (F)
- Location
- Time
- Notes
Study Area:
The study area contains all recreational locations on the Carson Park Isthmus, besides for the Chippewa Valley Museum. The recreational facilities include a football field, two baseball fields, a tennis court, a campsite, a large parking lots, and two parks. Data was collected along the Eastern and Western shorelines as well.
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| Figure 1. Study Area of the Carson Park Microclimate Project. |
Data Collection Preparation:
Before going out in the field, one must first create a geodatabase for the project. Use the online tutorial given by Professor Hupy in the instructions to make things go quicker. Open the database properties (Figure 1), and put each variable to be measured under the domain name, and write a brief description of that domain. As you can see in Figure 1, The majority of the factors were long integers, and therefore needed a domain type of Range. Set an appropriate minimum and maximum value for each long integer.
Once all of the Domains are filled out for the Geodatabase, create a feature class with the WGS 1984 Web Mercator (auxiliary sphere) as the projection. Next, create a field for each of the domains. Then select the same variable for domain in Field Properties box.
When all of the variables are ready to collect data, it is time to publish them on ArcGIS online in order to use the ArcCollector app. In order to publish it navigate from File to Share as... and click Services. From there, choose Publish New Service, connect it to the UW-Eau Claire - Geography and Anthropology page, and name it Carson_Park_Microclimate. Editing can be done for the capabilities, parameters, feature access, and item description in the service editor window. Under capabilities check the operation boxes marked Create, Delete, Query, Sync, and Update. Once all of the services are ready, publish it to ArcGIS online.
Once the data is uploaded to ArcGIS online, create a new map and enter the required information. Next, search for the file by clicking the Add pull down tab, and then choose Search for Layers. Type in the name you saved it as in the Find box, and then Add it to the map. Lastly save it, and go out to the field to gather the data.
Data Collection Process:
The gadgets necessary to collect the data are a smart phone, a Kestrel 3000 (Figure 7), and a compass (Figure 8). An efficient method of collecting the points is to use spatial analysis to judge where the next data collection point would be in relevance to previous ones. Start along the Eastern Shoreline, work around the border of the study area, fill in the middle.
The Kestrel 3000 was used to record Temperature (F), Dew Point (F), Wind Chill (F), and Wind Speed.
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| Figure 2. Database Properties window displaying the Domains tab. |
However, the variable Land Cover uses a text field. After looking at aerial imagery via ArcGIS basemaps, classify Land Cover by Trees, Asphalt, Grass, and Aggregate.
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| Figure 3. Domains tab showing the four coded values manually entered for Land Cover. |
Once all of the Domains are filled out for the Geodatabase, create a feature class with the WGS 1984 Web Mercator (auxiliary sphere) as the projection. Next, create a field for each of the domains. Then select the same variable for domain in Field Properties box.
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| Figure 4. Feature Class Property window showing all the fields measured. |
When all of the variables are ready to collect data, it is time to publish them on ArcGIS online in order to use the ArcCollector app. In order to publish it navigate from File to Share as... and click Services. From there, choose Publish New Service, connect it to the UW-Eau Claire - Geography and Anthropology page, and name it Carson_Park_Microclimate. Editing can be done for the capabilities, parameters, feature access, and item description in the service editor window. Under capabilities check the operation boxes marked Create, Delete, Query, Sync, and Update. Once all of the services are ready, publish it to ArcGIS online.
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| Figure 5. Item Description in the Service Editor window. |
Once the data is uploaded to ArcGIS online, create a new map and enter the required information. Next, search for the file by clicking the Add pull down tab, and then choose Search for Layers. Type in the name you saved it as in the Find box, and then Add it to the map. Lastly save it, and go out to the field to gather the data.
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| Figure 6. Search for Layers window. |
Data Collection Process:
The gadgets necessary to collect the data are a smart phone, a Kestrel 3000 (Figure 7), and a compass (Figure 8). An efficient method of collecting the points is to use spatial analysis to judge where the next data collection point would be in relevance to previous ones. Start along the Eastern Shoreline, work around the border of the study area, fill in the middle.
The Kestrel 3000 was used to record Temperature (F), Dew Point (F), Wind Chill (F), and Wind Speed.
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| Figure 7. Kestrel 3000 with a field notebook for scale |
The Compass was used to record the wind direction.
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| Figure 8. Compass |
As you can see in Figure 9, the atmospheric conditions were partly cloudy as well as party sunny, which was the case for the entire data collection period.
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| Figure 9. Photo of Football Field and sky captured via this students Iphone camera |
Now that all the data is collected. Click on the Carson_Park Feature Layer under the My Content tab, and choose open in ArcGIS Desktop. From there make a map showing the Temperature, the Dew Point, and all three of the wind factors on one map as well.
By sharing the data with Everyone (public) and then choosing Embed in Website, copy the link so it can be pasted into this blog in the HTML display.
Results/Discussion:
The few shortcomings of the following maps are elevation difference on the eastern shore, and the two hour time difference from the first point to the last point. However, based of the patters of the map, they don't seem to have too much of an impact on the values.
The only problem that occurred, aside from having to hop a few fences, was with the wind chill Factor. Although in Arc-map and ArcCatolog it showed the maximum number for the range was 150, for whatever reason it did not transfer to ArcCollector after trying three times. It was stuck at 0 to 20. A great way to work around this problem is to record wind chill, and put the value in the notes section. Export the service layer from ArcGIS online into a new feature class in the Carson Park geodatabase. Then use the editor toolbar to manually re-enter the windchill values in the attribute table for the new feature class.
The first map is the interactive map that shows all of the domain values for each location. Wind Chill is still displayed in the note section for this map due to an ArcMap glitch. Take not of the Land Cover before viewing the next few maps to see what type of impact it has with degrees of Fahrenheit recordings. You will find that the outside of the isthmus is quite cooler then the inside, and the following maps will given you a better glimpse of it.
The second map created was the Temperature map. By utilizing an interpolation tool called IDW in the Spatial Analysis tools. Using classified color scheme to makes it easier to tell the temperature variations throughout the isthmus. As you can see in Figure 9, The open grass and aggregate areas tended to have the highest temperatures, and the areas near the shoreline, tree cover, and asphalt have the lowest.
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| Figure 10. Temperature Map (Fahrenheit) |
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| Figure 11. Dew Point Map (Fahrenheit) |
The last map created was the wind map. It shows all three factors including wind speed, wind chill, and wind direction. This map also shows the highest temperatures in the middle, and the lowest temperatures around the outside. A classified color scheme for the wind chill works well too because, again, it does a great job of depicting the temperature variances. Whereas the stretched color scheme looked too blobby making it hard to tell the differences from one point to another. To best show the wind speed and wind direction, a graduated symbols map should be created. Use wind speed as the value, then click the advanced button and then rotate. In the window selection wind direction, and keep the rotation style as Geographic. As you can see in Figure 11, the wind chill is greatest near the shore, asphalt, and tree cover. It is the warmest out in the open over the grass and aggregate areas. The wind was consistently blowing Northwest, meaning the fastest winds were located in Southeast of the map.
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| Figure 12. Wind Pattern Map |
Conclusion:
In conclusion, the water seems to effect the Carson Park Isthmus the most on the shoreline, and then less and less as you move toward the middle for Temperature, Dew Point, and Wind Chill. Meaning that the answer to the study question likely means there that the water from half moon lake does not have much of an effect on the recreational areas of Carson Park. However, it is clear that it has close to a 10 to 15 degree difference on the outside of the isthmus for any tree cover areas, asphalt areas, and especially near the outer shore. The Land Cover areas deemed Aggregate and grass were consistently warmer then the other two. Again, ArcCollector has proved to be a very efficient method for data collection, and specifically creating a microclimate. It is a free, and easy method of mapping. The importance of metadata and the notes the section was reassured in this project. Anytime there is a problem with a specific domain, like the one in this project, it is always a good idea to still record it and put it in the notes section.
In conclusion, the water seems to effect the Carson Park Isthmus the most on the shoreline, and then less and less as you move toward the middle for Temperature, Dew Point, and Wind Chill. Meaning that the answer to the study question likely means there that the water from half moon lake does not have much of an effect on the recreational areas of Carson Park. However, it is clear that it has close to a 10 to 15 degree difference on the outside of the isthmus for any tree cover areas, asphalt areas, and especially near the outer shore. The Land Cover areas deemed Aggregate and grass were consistently warmer then the other two. Again, ArcCollector has proved to be a very efficient method for data collection, and specifically creating a microclimate. It is a free, and easy method of mapping. The importance of metadata and the notes the section was reassured in this project. Anytime there is a problem with a specific domain, like the one in this project, it is always a good idea to still record it and put it in the notes section.
Sources:
ArcCollector Tutorial: http://doc.arcgis.com/en/collector
ArcCollector Tutorial: http://doc.arcgis.com/en/collector
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