Shapefiles and Historical Aerial Photographs, Little Missouri River, 1939-2003
Dates
Publication Date
2017-10-17
Time Period
1939
Time Period
1949
Time Period
1958
Time Period
1966
Time Period
1974
Time Period
1982
Time Period
1995
Time Period
2003
Citation
Miller, J.R., Friedman, J.M., Falvo, C.I.P., and Everette, A.L., 2017, Shapefiles and Historical Aerial Photographs, Little Missouri River, 1939-2003: U.S. Geological Survey data release, https://doi.org/10.5066/F78W3C6F.
Summary
The data archive contains the aerial photographs and channel delineations used in our analysis. The images have been geo-referenced to the 1995 digital orthophoto quarter quadrangles as described by Miller and Friedman (2009). The separate images for each year can be viewed as a composite along with that year’s channel delineation using a geographic information system (GIS). The 2003 IKONOS satellite imagery is proprietary and, therefore, cannot be served here. The channel delineations for all photo years (including 2003) and the delineation of the outer flood-plain boundary are stored as shapefiles. These shapefiles can be manipulated using GIS applications to reproduce the spatial analyses reported in Miller and Friedman (2009). [...]
Summary
The data archive contains the aerial photographs and channel delineations used in our analysis. The images have been geo-referenced to the 1995 digital orthophoto quarter quadrangles as described by Miller and Friedman (2009). The separate images for each year can be viewed as a composite along with that year’s channel delineation using a geographic information system (GIS). The 2003 IKONOS satellite imagery is proprietary and, therefore, cannot be served here. The channel delineations for all photo years (including 2003) and the delineation of the outer flood-plain boundary are stored as shapefiles. These shapefiles can be manipulated using GIS applications to reproduce the spatial analyses reported in Miller and Friedman (2009). This metadata record is associated with the project landing page that describes the entire data package. The seven child items on the landing page are each associated with a different repeat photography year. Each child item provides all images taken in that year and a SHP file that delineates channel location. Each year's photography consists of 4-8 scanned and referenced aerial photographs or digital satellite imagery in a geoTIFF format. SHP files from any year can be overlaid on top of the images to visualize change in channel location. TIFF images and associated SHP files are included as attachments or external sources and can be downloaded directly from the ScienceBase page.
Reference: Miller, J.R., and J.M. Friedman. 2009. Influence of flow variability on flood-plain formation and destruction, Little Missouri River, North Dakota. Geological Society of America Bulletin 121:752-759.
Related Publication: Miller, Jennifer R. 2005. Quantifying historical channel and floodplain change along the Little Missouri River in Theodore Roosevelt National Park, North Dakota. Colorado State University: Department of Forest, Rangeland and Watershed Stewardship. Master's Thesis.
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Related External Resources
Type: Related Primary Publication
Miller, J.R., and J.M. Friedman. 2009. Influence of flow variability on flood-plain formation and destruction, Little Missouri River, North Dakota. Geological Society of America Bulletin 121:752-759.
Resolving observations of channel change into separate measurements of flood-plain erosion and deposition reveals distinct relations between these processes and the flow regime. We analyzed eight sequential bottomland images from 1939 to 2003 along the Little Missouri River, North Dakota, to relate flood-plain change to flow along this largely unregulated river. At the decadal scale flood-plain formation and erosion varied independently. Erosion was strongly positively correlated to infrequent high flows recurring every 5-10 years, while flood-plain formation was strongly negatively correlated to frequent low flows exceeded 80% of the time. At the century scale, however, a climatically induced decrease in peak flows has reduced the erosion rate, limiting the area made available for flood-plain formation. The rate of erosion was not uniform across the flood plain. Younger surfaces consistently eroded at a higher rate than older surfaces, suggesting that throughput of contaminants would occur more rapidly than predicted by models that assume uniform residence time of sediment across the flood plain. Flood-plain age maps produced by analysis of sequential flood-plain images were similar to forest-age maps produced through dendrochronology, confirming the assumption of dendrogeomorphic studies that riparian tree establishment in this system is limited to recent channel locations. All referenced photos were used to delineate the channel location on a 17.9 km. section of the Little Missouri River from 1939 to 2003.