This dataverse includes datasets as a result of NSF RAPID Award #1760717 that covers the ecological role and impact of downed trees on hydrologic surface connectivity within the Mission River floodplain.

There are two dataverses that have data inputs and products related to Objectives 1 and 2. These are:

Objective 1: Environmental Analyses

Objective 2: Roughness Scenarios

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501 to 510 of 821 Results
Stage_850.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +10% Roughness Scenario
Shapefile as ZIP Archive - 324.4 KB - MD5: 4df2eb87b0ada068091952b1a460aaa9
Polygon shapefile of connected inundation extents that are associated to a flow stage of 8.50m.
Stage_875.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +10% Roughness Scenario
Shapefile as ZIP Archive - 302.6 KB - MD5: 9b5466804cd0c02f41c753f1181a278f
Polygon shapefile of connected inundation extents that are associated to a flow stage of 8.75m.
Stage_900.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +10% Roughness Scenario
Shapefile as ZIP Archive - 254.5 KB - MD5: 888271bdc099b39a905db6a11a8d542e
Polygon shapefile of connected inundation extents that are associated to a flow stage of 9.00m.
Stage_925.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +10% Roughness Scenario
Shapefile as ZIP Archive - 250.3 KB - MD5: 62989f3b09d8228cf58dc37f5a653851
Polygon shapefile of connected inundation extents that are associated to a flow stage of 9.25m.
Stage_950.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +10% Roughness Scenario
Shapefile as ZIP Archive - 251.9 KB - MD5: 31fea90aeec64e6585bb236b00d0e0fc
Polygon shapefile of connected inundation extents that are associated to a flow stage of 9.50m.
Stage_975.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +10% Roughness Scenario
Shapefile as ZIP Archive - 228.7 KB - MD5: c527293392a51b9d8b1ca9fa08dfb866
Polygon shapefile of connected inundation extents that are associated to a flow stage of 9.75m.
Flow Inundation Extents: Landcover +25% Roughness Scenario
Jun 9, 2020 - Roughness Scenarios
FLUD Research Group, 2020, "Flow Inundation Extents: Landcover +25% Roughness Scenario", https://doi.org/10.18738/T8/MZQ3O8, Texas Data Repository, V1
Polygon shapefiles that represent flow inundation extents. These extents are derived from water surface elevations from the HEC-RAS 5.0.7 2D hydrodynamic model (Brunner, 2016), and associated with flow stages (1.0 – 11.63m) at 0.25m interval (N=44). These flow stages were output...
Stage_1000.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +25% Roughness Scenario
Shapefile as ZIP Archive - 245.3 KB - MD5: 21b48acea939e585a9e7567a4f714d8c
Polygon shapefile of connected inundation extents that are associated to a flow stage of 10.00m.
Stage_100.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +25% Roughness Scenario
Shapefile as ZIP Archive - 66.3 KB - MD5: c59e9cd7651964038d089288029ebc49
Polygon shapefile of connected inundation extents that are associated to a flow stage of 1.00m.
Stage_1025.zip
Jun 9, 2020 - Flow Inundation Extents: Landcover +25% Roughness Scenario
Shapefile as ZIP Archive - 314.1 KB - MD5: c5c65ca47ee715dcc8443679b072a9c9
Polygon shapefile of connected inundation extents that are associated to a flow stage of 10.25m.
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