using arcgis to study the correlation between lightning strike density and terrain elevation
DESCRIPTION
Using ArcGIS to Study the Correlation between Lightning Strike Density and Terrain Elevation. Alex DeCaria and Michael Babij Department of Earth Sciences Millersville University. Raster data Gridded data Attributes are assumed valid over entire cell ArcGIS stores in GRID files. Vector data - PowerPoint PPT PresentationTRANSCRIPT
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Using ArcGIS to Study the Correlation between
Lightning Strike Density and Terrain Elevation
Alex DeCaria and Michael Babij
Department of Earth Sciences
Millersville University
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Raster vs. Vector
Raster data
• Gridded data
• Attributes are assumed valid over entire cell
• ArcGIS stores in GRID files
Vector data
• Uses points, lines, and polygons
• Attributes are assumed valid only on the given shape
• ArcGIS stores in shape files
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Raster vs. Vector
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Raster vs. Vector
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Example of Attribute Table
Point ID Temperature Pressure
1 262 19
2 188 15
3 267 12
4 278 12
5 280 18
6 238 12
7 253 21
8 265 23
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Lightning Data
• Lightning strike positions for 1995-2001 acquired from the National Lightning Detection NetworkTM (NLDN)
– NLDN detects only cloud-to-ground lightning
– Positions are lat/lon on WGS84 datum
– Positions are accurate to within 1 km
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Formatting Data
• Data came as ASCII file with each record representing a single lightning strike.– Lat/lon– Time– Signal (+ or )
• Wrote Fortran90 program to parse data into separate years and specific location.
• Data files then read into Microsoft Access database program and converted into ArcGIS shape files (one for each calendar year)
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Lightning Strike Positions for 2001
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Calculating Density
• First converted data from lat/lon coordinates to meters easting and northing
• Spatial Analyst then used to calculate density.
– The density calculation creates a raster from the vector (point) lightning locations
– Need to specify search radius and cell size.
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How ArcGIS* Calculates Density
2rcount r = search radiusd = cell size
* Need Spatial Analyst extension
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Effect of Search Radius on Density Calculations
Radius = cell size Radius >> cell size
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Calculating Density
• First converted data from lat/lon coordinates to meters easting and northing
• Spatial Analyst then used to calculate density.
– The density calculation creates a raster from the vector (point) lightning locations
– Need to specify search radius and cell size.
– Need to specify “simple” or “kernal” for calculations
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“Simple” vs. “Kernal” for Density Calculations
Simple Kernal
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Calculating Density (cont.)
• Density data are adjusted based on estimated detection efficiencies– Efficiency was 61% in 1995 and increased to
100% in 1998 and later
• Adjusted yearly densities were averaged to calculate annual average flash density map
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Annual Average Strike Density 1995-2001
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Elevation Data
• Used USGS National Elevation Data set (~30-meter horizontal grid).
• Converted to 1-km horizontal grid using Raster Calculator feature of Spatial Analyst extension
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Low-resolution Terrain Elevation
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Joining Density and Elevation Data
• Used Raster Calculator to re-map density and elevation data sets onto their shared domain.
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Comparision of Strike Density and Terrain Elevation
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Creating Joined Elevation/Density Data File
• Converted both the elevation and density data sets into vector (point) format using the “convert” feature of Spatial Analyst.
– ArcGIS only converts integer rasters to vector form.
– Used Raster Calculator to convert real raster to integer raster
– Needed to multiply density by 10 to preserve information in decimal place.
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• Joined the two vector data sets using the “Join” feature of Spatial Analyst.
• This creates a joined “attribute table” that contains both density and elevation information at each point.
Creating Joined Elevation/Density Data File (cont.)
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Statistical Analysis
• Exported joined attribute table to ASCII file and then imported it into a Microsoft Excel worksheet.
• Used Microsoft Excel to create scatter plot and perform linear regression.
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Conclusions
• There exists a weak, yet statistically significant negative correlation between terrain elevation and annual average lightning strike density for SE Pennsylvania.
• Suggests that orography is not the dominant factor in thunderstorm formation in this region.– Consistent with Orville and Huffines (2001)*
• Next step: Analyze data over Rio Grande Valley in New Mexico, where there appears to be a positive correlation between flash density and elevation.
* Orville, R.E. and G.R. Huffines, 2001: “Cloud-to-ground lightning in the United States: NLDN results in the first decade, 1989-98, Mon. Wea. Rev., 129, pp. 1179-1193
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Acknowledgements
• Ken Cummins, Väisälä-GAI, Inc.– Provided lightning position data free of charge.
• Millersville University Faculty Grants Committee– Funded student research hours.
• Tom Whitfield, PA Geological and Topographic Survey– Provided topographic data and advice.