Climate Change Scenario Inundation Metrics along the Upper and Middle Mississippi and Lower Missouri Rivers

Dates

Publication Date: 2017-12-21
Start Date: 1930-03-01
End Date: 2011-12-31

Citation

Bulliner, E.A., Lindner, G., Bouska, K., Jacobson, R.B., and Paukert, C. 2017, Science to Inform Management of Floodplain Conservation Lands under Non-Stationary Conditions: U.S. Geological Survey data release, https://doi.org/10.5066/F7HM56KG.

Summary

Within large-river ecosystems, floodplains serve a variety of important ecological functions. A recent survey of 80 managers of floodplain conservation lands along the Upper and Middle Mississippi and Lower Missouri Rivers in the central United States found that the most critical information needed to improve floodplain management centered on metrics for characterizing depth, extent, frequency, duration, and timing of inundation. These metrics can be delivered to managers efficiently through cloud-based interactive maps. To calculate these metrics, we interpolated an existing one-dimensional HEC-RAS hydraulic model for the Lower Missouri River, which simulated water surface elevations at cross sections spaced (<1 kilometer) to sufficiently [...]

Summary

Within large-river ecosystems, floodplains serve a variety of important ecological functions. A recent survey of 80 managers of floodplain conservation lands along the Upper and Middle Mississippi and Lower Missouri Rivers in the central United States found that the most critical information needed to improve floodplain management centered on metrics for characterizing depth, extent, frequency, duration, and timing of inundation. These metrics can be delivered to managers efficiently through cloud-based interactive maps. To calculate these metrics, we interpolated an existing one-dimensional HEC-RAS hydraulic model for the Lower Missouri River, which simulated water surface elevations at cross sections spaced (<1 kilometer) to sufficiently characterize water surface profiles along an approximately 800 kilometer stretch upstream from the confluence with the Mississippi River over an 80-year record at a daily time step. To translate these water surface elevations to inundation depths, we subtracted a merged terrain model consisting of floodplain LIDAR and bathymetric surveys of the river channel. We completed these calculations for an 800 kilometer stretch of the Missouri River, spanning from Rulo, Nebraska to the river's confluence with the Mississippi River. This approach resulted in a 29,000+ day time series of inundation depths across the floodplain using grid cells with 30 meter spatial resolution. This dataset presents 17 metrics for each of two scenarios, one using a baseline timeseries of stages from the HEC-RAS simulation and one using a timeseries of stages adjusted to account for changes in discharge under one possible climate change scenario. These metrics are calculated on a per pixel basis and encompass a variety of temporal criteria generally relevant to flora and fauna of interest to floodplain managers, including, for example, the average number of days inundated per year within a growing season. We also include a series of maps of water depths across the floodplain by return interval for each scenario, and the minimum return interval at which each pixel is inundated. Lastly, we include the base elevation layer that we generated to calculate depth of inundation from interpolated water-surface elevations.

Contacts

Point of Contact :: Edward A Bulliner
Process Contact :: Edward A Bulliner, Edward A Bulliner, Edward A Bulliner, Edward A Bulliner, Edward A Bulliner, Edward A Bulliner, Garth Lindner
Originator :: Edward A Bulliner, Garth Lindner, Kristen Bouska, Robert B Jacobson, Craig Paukert
Metadata Contact :: Edward A Bulliner
Distributor :: U.S. Geological Survey

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Climatechanges.xml Original FGDC Metadata	View	33.98 KB	application/fgdc+xml
Climatechangesc.zip		167.92 MB	application/zip

Extension: cc_RelProb1mPerYearLT.zip
cc_RelProb1mPerYearLT.xml Original FGDC Metadata	View	33.36 KB
cc_RelProb1mPerYearLT.tif		15.94 MB
cc_RelProb1mPerYearLT.tif-ColorRamp.SLD		2.08 KB

Related External Resources

Type: Online Link

Web Link	https://doi.org/10.5066/F7HM56KG

Type: webLink

Digital Data	https://doi.org/10.5066/F7HM56KG

Purpose

This dataset was developed to quantify timing, extent, depth, and duration of inundation for floodplains on the Missouri River, and to assess relative potential for ecological restoration with a variety of biological endpoints. We developed a suite of metrics which characterize inundation timing and extent that will be useful to floodplain managers in for planning restoration efforts. We developed these layers to quantify inundation metrics under a possible climate change scenario generated from CMIP3 and CMIP5 models, which we used to calculate offsets from the baseline scenario for USGS gauges within the model domain.

Climate Change Scenario Inundation Metrics along the Upper and Middle Mississippi and Lower Missouri Rivers

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