Open-File Report O-19-03, Columbia River simulated tsunami scenarios, by Jonathan C. Allan and Fletcher E. O’Brien; 9 p. report, 14 Esri format geodatabases; metadata files.
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Open-File Report O-19-03, Columbia River simulated tsunami scenarios,
by Jonathan C. Allan and Fletcher E. O’Brien; 9 p. report, 14 Esri format geodatabases; metadata files.
The purpose of this publication is to release the tsunami model data output files produced as part of DOGAMI Special Paper 51, Columbia River tsunami modeling: toward improved maritime planning response, by Allan and others (2018). The files have been consolidated into specific tsunami model runs, as shown in the table below. For more information, see the metadata.
This study evaluated new tsunami modeling results completed for both distant and local tsunamis in the Columbia River system. The overall goal was to examine the interaction of tsunamis with dynamic tides (as opposed to modeling using a fixed tidal elevation such as mean higher high water), different riverine flow regimes, and friction to provide an improved understanding of tsunami effects on maritime traffic operating offshore the mouth of the Columbia River and within the estuary, as well as upriver toward the ports of Longview, Vancouver, and Portland. This modeling effort was accomplished by evaluating a suite of tsunami simulations for the Columbia River focused on two distant earthquake scenarios: the 1964 Anchorage, Alaska (AK64) earthquake and a maximum considered eastern Aleutian Island (AKMax) earthquake, and two local Cascadia subduction zone (CSZ) scenarios: Large1 (L1) and Extra-extra-large1 (XXL1). See Allan and others (2018) for more detailed information on the methodologies used to create these data.
PUBLICATION DOWNLOADS
Geodatabases (zipped files):
| Geodatabase (Esri 10.2 format) | Geodatabase-Specific Information (Also see table below and Table 4-1 in text report for run information.) |
| CR_maritime_model_Run01.gdb | Tide and river flow simulations carried out using dynamic tides, variable river flows, and landscape friction. No tsunami. |
| CR_maritime_model_Run02.gdb | Alaska 1964 tsunami simulation with landscape friction. |
| CR_maritime_model_Run03.gdb | XXL1 simulation carried out using a static tide level, a frictionless bottom, and river flow of 7,000 m3/sec. Test simulations undertaken using a coarse grid. |
| CR_maritime_model_Run04.gdb | XXL1 simulation carried out using a static tide level, a frictionless bottom, and river flow of 7,000 m3/sec. Test simulations undertaken using a fine grid. |
| CR_maritime_model_Run05.gdb | XXL1, L1, and AKMax simulations carried out using a static tide level, variable friction coefficients, and do not include river flow. |
| CR_maritime_model_Run06.gdb | XXL1, L1, and AKMax simulations carried out using dynamic tides, average river flows, and landscape friction. Tsunami arrives at flood (spring) tide. |
| CR_maritime_model_Run07.gdb | XXL1, L1, and AKMax simulations carried out using dynamic tides, average river flows, and landscape friction. Tsunami arrives at ebb (spring) tide. |
| CR_maritime_model_Run08.gdb | XXL1, L1, and AKMax simulations carried out using dynamic tides, average river flows, and landscape friction. Tsunami arrives at flood slack (spring) tide. |
| CR_maritime_model_Run09.gdb | XXL1, L1, and AKMax simulations carried out using dynamic tides, average river flows, and landscape friction. Tsunami arrives at ebb slack (spring) tide. |
| CR_maritime_model_Run10.gdb | XXL1, L1, and AKMax simulations carried out using dynamic tides, low river flows, and landscape friction. Tsunami arrives at flood (spring) tide. |
| CR_maritime_model_Run11.gdb | XXL1, L1, and AKMax simulations carried out using dynamic tides, high river flows, and landscape friction. Tsunami arrives at flood (spring) tide. |
| CR_maritime_model_Run12.gdb | XXL1, L1, and AKMax simulations carried out using dynamic tides, average river flows, and landscape friction. Tsunami arrives at flood (neap) tide. |
| CR_miscellaneous.gdb | See metadata list below. |
| CR_ensemble_and_difference_rasters.gdb | See metadata list below. |
Columbia River model runs (Table 1-1 from the report):
Run Name |
Scenario |
Tidal Phase |
Spring / Neap |
River Flow |
Bottom Friction** |
Run01m |
Tide+flow |
dynamic, flood |
— |
average |
landscape |
Run01j |
Tide+flow |
dynamic, flood |
— |
low |
landscape |
Run01k |
Tide+flow |
dynamic, flood |
— |
high |
landscape |
Run02e |
AK64 |
event |
event |
estimated |
landscape |
Run03d |
XXL1 |
static (MHHW) |
— |
7,000 |
0 |
Run04a |
XXL1 |
static (MHHW) |
— |
7,000 |
0 |
Run05a_XXL1 |
XXL1 |
static (MHHW) |
— |
0 |
0 |
Run05b_L1 |
L1 |
MHHW (static) |
— |
0 |
0.025 |
Run06a_XXL1 |
XXL1 |
dynamic, flood |
spring |
average |
landscape |
Run07a_XXL1 |
XXL1 |
dynamic, ebb |
spring |
average |
landscape |
Run08a_XXL1 |
XXL1 |
dynamic, flood slack |
spring |
average |
landscape |
Run09a_XXL1 |
XXL1 |
dynamic, ebb slack |
spring |
average |
landscape |
Run10a_XXL1 |
XXL1 |
dynamic, flood |
spring |
low |
landscape |
Run11a_XXL1 |
XXL1 |
dynamic, flood |
spring |
high |
landscape |
Run12a_XXL1 |
XXL1 |
dynamic, flood |
neap |
average |
landscape |
Table notes: Static means a fixed tidal elevation, and dynamic means the tide varies over time.
*Average spring “freshet” (spring thaw resulting from snowmelt) flows = June 2002 conditions (~9,000 m3/sec). High flow = June 1997 event (~15,000 m3/sec). Low flow = September 15, 2001, event (~2,400 m3/sec).
**Unless otherwise specified, nodal Manning-n coefficients are spatially assigned using land-cover definitions from the USGS National Land Cover Data (NLCD) for Oregon and Washington (see Table 2‑1). For the ocean bottom we used Manning-n = 0.02.
Metadata (371 .xml files)
Metadata is available as a zipped bundle. Metadata files, by geodatabase association, are:
CR_ensemble_and_difference_rasters.gdb:
Diff_maxVelKnt_Run05a_akmax_Run05a_XXL1_metadata.xml
Diff_maxVelKnt_Run05a_L1_Run05a_XXL1_metadata.xml
Diff_maxVelKnt_Run06a_XXL1_Run05a_XXL1_metadata.xml
Diff_maxVelKnt_Run07a_akmax_Run06a_akmax_metadata.xml
Diff_maxVelKnt_Run07a_XXL1_Run06a_XXL1_metadata.xml
Diff_maxVelKnt_Run08a_akmax_Run06a_akmax_metadata.xml
Diff_maxVelKnt_Run08a_XXL1_Run06a_XXL1_metadata.xml
Diff_maxVelKnt_Run09a_akmax_Run06a_akmax_metadata.xml
Diff_maxVelKnt_Run09a_XXL1_Run06a_XXL1_metadata.xml
Diff_maxVelKnt_Run10a_akmax_Run06a_akmax_metadata.xml
Diff_maxVelKnt_Run10a_XXL1_Run06a_XXL1_metadata.xml
Diff_maxVelKnt_Run10a_XXL1_Run11a_XXL1_metadata.xml
Diff_maxVelKnt_Run11a_akmax_Run06a_akmax_metadata.xml
Diff_maxVelKnt_Run11a_XXL1_Run06a_XXL1_metadata.xml
Diff_maxVelKnt_Run12a_XXL1_Run06a_XXL1_metadata.xml
Ensemble_akmax_maxElevMHHW_metadata.xml
Ensemble_akmax_maxVelKnt_metadata.xml
Ensemble_akmax_maxVorticity_metadata.xml
Ensemble_akmax_minH_metadata.xml
Ensemble_L1_maxElevMHHW_metadata.xml
Ensemble_L1_maxVelKnt_metadata.xml
Ensemble_L1_maxVorticity_metadata.xml
Ensemble_L1_minH_metadata.xml
Ensemble_XXL1_maxElevMHHW_metadata.xml
Ensemble_XXL1_maxVelKnt_metadata.xml
Ensemble_XXL1_maxVorticity_metadata.xml
Ensemble_XXL1_minH_metadata.xml
CR_maritime_model_Run01.gdb:
Run01j_ElevMHHW_metadata.xml
Run01j_ElevNAVD_metadata.xml
Run01j_FlowD_metadata.xml
Run01j_inundation_metadata.xml
Run01j_maxVelKnt_metadata.xml
Run01j_pt_metadata.xml
Run01k_ElevMHHW_metadata.xml
Run01k_ElevNAVD_metadata.xml
Run01k_FlowD_metadata.xml
Run01k_inundation_metadata.xml
Run01k_maxVelKnt_metadata.xml
Run01k_pt_metadata.xml
Run01m_ElevMHHW_metadata.xml
Run01m_ElevNAVD_metadata.xml
Run01m_FlowD_metadata.xml
Run01m_inundation_metadata.xml
Run01m_maxVelKnt_metadata.xml
Run01m_pt_metadata.xml
CR_maritime_model_Run02.gdb:
Run02e_ak64_ElevMHHW_metadata.xml
Run02e_ak64_ElevNAVD_metadata.xml
Run02e_ak64_FlowD_metadata.xml
Run02e_ak64_inundation_metadata.xml
Run02e_ak64_maxMF_metadata.xml
Run02e_ak64_maxMF_minH_pt_metadata.xml
Run02e_ak64_maxVelKnt_metadata.xml
Run02e_ak64_maxVorticity_metadata.xml
Run02e_ak64_maxVorticity_pt_metadata.xml
Run02e_ak64_minH_metadata.xml
Run02e_ak64_pt_metadata.xml
CR_maritime_model_Run03.gdb:
Run03d_XXL1_ElevMHHW_metadata.xml
Run03d_XXL1_ElevNAVD_metadata.xml
Run03d_XXL1_FlowD_metadata.xml
Run03d_XXL1_inundation_metadata.xml
Run03d_XXL1_maxVelKnt_metadata.xml
Run03d_XXL1_pt_metadata.xml
CR_maritime_model_Run04.gdb:
Run04a_XXL1_ElevMHHW_metadata.xml
Run04a_XXL1_ElevNAVD_metadata.xml
Run04a_XXL1_FlowD_metadata.xml
Run04a_XXL1_inundation_metadata.xml
Run04a_XXL1_maxMF_metadata.xml
Run04a_XXL1_maxMF_minH_pt_metadata.xml
Run04a_XXL1_maxVelKnt_metadata.xml
Run04a_XXL1_maxVorticity_metadata.xml
Run04a_XXL1_maxVorticity_pt_metadata.xml
Run04a_XXL1_minH_metadata.xml
Run04a_XXL1_pt_metadata.xml
CR_maritime_model_Run05.gdb:
Run05a_akmax_ElevMHHW_metadata.xml
Run05a_akmax_ElevNAVD_metadata.xml
Run05a_akmax_FlowD_metadata.xml
Run05a_akmax_inundation_metadata.xml
Run05a_akmax_maxMF_metadata.xml
Run05a_akmax_maxMF_minH_pt_metadata.xml
Run05a_akmax_maxVelKnt_metadata.xml
Run05a_akmax_maxVorticity_metadata.xml
Run05a_akmax_maxVorticity_pt_metadata.xml
Run05a_akmax_minH_metadata.xml
Run05a_akmax_pt_metadata.xml
Run05a_L1_ElevMHHW_metadata.xml
Run05a_L1_ElevNAVD_metadata.xml
Run05a_L1_FlowD_metadata.xml
Run05a_L1_inundation_metadata.xml
Run05a_L1_maxMF_metadata.xml
Run05a_L1_maxMF_minH_pt_metadata.xml
Run05a_L1_maxVelKnt_metadata.xml
Run05a_L1_maxVorticity_metadata.xml
Run05a_L1_maxVorticity_pt_metadata.xml
Run05a_L1_minH_metadata.xml
Run05a_L1_pt_metadata.xml
Run05a_XXL1_ElevMHHW_metadata.xml
Run05a_XXL1_ElevNAVD_metadata.xml
Run05a_XXL1_FlowD_metadata.xml
Run05a_XXL1_inundation_metadata.xml
Run05a_XXL1_maxMF_metadata.xml
Run05a_XXL1_maxMF_minH_pt_metadata.xml
Run05a_XXL1_maxVelKnt_metadata.xml
Run05a_XXL1_maxVorticity_metadata.xml
Run05a_XXL1_maxVorticity_pt_metadata.xml
Run05a_XXL1_minH_metadata.xml
Run05a_XXL1_pt_metadata.xml
Run05b_L1_ElevMHHW_metadata.xml
Run05b_L1_ElevNAVD_metadata.xml
Run05b_L1_FlowD_metadata.xml
Run05b_L1_inundation_metadata.xml
Run05b_L1_maxMF_metadata.xml
Run05b_L1_maxMF_minH_pt_metadata.xml
Run05b_L1_maxVelKnt_metadata.xml
Run05b_L1_maxVorticity_metadata.xml
Run05b_L1_maxVorticity_pt_metadata.xml
Run05b_L1_minH_metadata.xml
Run05b_L1_pt_metadata.xml
Run05c_L1_ElevMHHW_metadata.xml
Run05c_L1_ElevNAVD_metadata.xml
Run05c_L1_FlowD_metadata.xml
Run05c_L1_inundation_metadata.xml
Run05c_L1_maxMF_metadata.xml
Run05c_L1_maxMF_minH_pt_metadata.xml
Run05c_L1_maxVelKnt_metadata.xml
Run05c_L1_maxVorticity_metadata.xml
Run05c_L1_maxVorticity_pt_metadata.xml
Run05c_L1_minH_metadata.xml
Run05c_L1_pt_metadata.xml
CR_maritime_model_Run06.gdb:
Run06a_L1_ElevMHHW_metadata.xml
Run06a_L1_ElevNAVD_metadata.xml
Run06a_L1_FlowD_metadata.xml
Run06a_L1_inundation_metadata.xml
Run06a_L1_maxMF_metadata.xml
Run06a_L1_maxMF_minH_pt_metadata.xml
Run06a_L1_maxVelKnt_metadata.xml
Run06a_L1_maxVorticity_metadata.xml
Run06a_L1_maxVorticity_pt_metadata.xml
Run06a_L1_minH_metadata.xml
Run06a_L1_pt_metadata.xml
Run06a_XXL1_ElevMHHW_metadata.xml
Run06a_XXL1_ElevNAVD_metadata.xml
Run06a_XXL1_FlowD_metadata.xml
Run06a_XXL1_inundation_metadata.xml
Run06a_XXL1_maxMF_metadata.xml
Run06a_XXL1_maxMF_minH_pt_metadata.xml
Run06a_XXL1_maxVelKnt_metadata.xml
Run06a_XXL1_maxVorticity_metadata.xml
Run06a_XXL1_maxVorticity_pt_metadata.xml
Run06a_XXL1_minH_metadata.xml
Run06a_XXL1_pt_metadata.xml
Run06d_akmax_ElevMHHW_metadata.xml
Run06d_akmax_ElevNAVD_metadata.xml
Run06d_akmax_FlowD_metadata.xml
Run06d_akmax_inundation_metadata.xml
Run06d_akmax_maxMF_metadata.xml
Run06d_akmax_maxMF_minH_pt_metadata.xml
Run06d_akmax_maxVelKnt_metadata.xml
Run06d_akmax_maxVorticity_metadata.xml
Run06d_akmax_maxVorticity_pt_metadata.xml
Run06d_akmax_minH_metadata.xml
Run06d_akmax_pt_metadata.xml
CR_maritime_model_Run07.gdb:
Run07a_L1_ElevMHHW_metadata.xml
Run07a_L1_ElevNAVD_metadata.xml
Run07a_L1_FlowD_metadata.xml
Run07a_L1_inundation_metadata.xml
Run07a_L1_maxMF_metadata.xml
Run07a_L1_maxMF_minH_pt_metadata.xml
Run07a_L1_maxVelKnt_metadata.xml
Run07a_L1_maxVorticity_metadata.xml
Run07a_L1_maxVorticity_pt_metadata.xml
Run07a_L1_minH_metadata.xml
Run07a_L1_pt_metadata.xml
Run07a_XXL1_ElevMHHW_metadata.xml
Run07a_XXL1_ElevNAVD_metadata.xml
Run07a_XXL1_FlowD_metadata.xml
Run07a_XXL1_inundation_metadata.xml
Run07a_XXL1_maxMF_metadata.xml
Run07a_XXL1_maxMF_minH_pt_metadata.xml
Run07a_XXL1_maxVelKnt_metadata.xml
Run07a_XXL1_maxVorticity_metadata.xml
Run07a_XXL1_maxVorticity_pt_metadata.xml
Run07a_XXL1_minH_metadata.xml
Run07a_XXL1_pt_metadata.xml
Run07d_akmax_ElevMHHW_metadata.xml
Run07d_akmax_ElevNAVD_metadata.xml
Run07d_akmax_FlowD_metadata.xml
Run07d_akmax_inundation_metadata.xml
Run07d_akmax_maxMF_metadata.xml
Run07d_akmax_maxMF_minH_pt_metadata.xml
Run07d_akmax_maxVelKnt_metadata.xml
Run07d_akmax_maxVorticity_metadata.xml
Run07d_akmax_maxVorticity_pt_metadata.xml
Run07d_akmax_minH_metadata.xml
Run07d_akmax_pt_metadata.xml
CR_maritime_model_Run08.gdb:
Run08a_L1_ElevMHHW_metadata.xml
Run08a_L1_ElevNAVD_metadata.xml
Run08a_L1_FlowD_metadata.xml
Run08a_L1_inundation_metadata.xml
Run08a_L1_maxMF_metadata.xml
Run08a_L1_maxMF_minH_pt_metadata.xml
Run08a_L1_maxVelKnt_metadata.xml
Run08a_L1_maxVorticity_metadata.xml
Run08a_L1_maxVorticity_pt_metadata.xml
Run08a_L1_minH_metadata.xml
Run08a_L1_pt_metadata.xml
Run08a_XXL1_ElevMHHW_metadata.xml
Run08a_XXL1_ElevNAVD_metadata.xml
Run08a_XXL1_FlowD_metadata.xml
Run08a_XXL1_inundation_metadata.xml
Run08a_XXL1_maxMF_metadata.xml
Run08a_XXL1_maxMF_minH_pt_metadata.xml
Run08a_XXL1_maxVelKnt_metadata.xml
Run08a_XXL1_maxVorticity_metadata.xml
Run08a_XXL1_maxVorticity_pt_metadata.xml
Run08a_XXL1_minH_metadata.xml
Run08a_XXL1_pt_metadata.xml
Run08d_akmax_ElevMHHW_metadata.xml
Run08d_akmax_ElevNAVD_metadata.xml
Run08d_akmax_FlowD_metadata.xml
Run08d_akmax_inundation_metadata.xml
Run08d_akmax_maxMF_metadata.xml
Run08d_akmax_maxMF_minH_pt_metadata.xml
Run08d_akmax_maxVelKnt_metadata.xml
Run08d_akmax_maxVorticity_metadata.xml
Run08d_akmax_maxVorticity_pt_metadata.xml
Run08d_akmax_minH_metadata.xml
Run08d_akmax_pt_metadata.xml
CR_maritime_model_Run09.gdb:
Run09a_L1_ElevMHHW_metadata.xml
Run09a_L1_ElevNAVD_metadata.xml
Run09a_L1_FlowD_metadata.xml
Run09a_L1_inundation_metadata.xml
Run09a_L1_maxMF_metadata.xml
Run09a_L1_maxMF_minH_pt_metadata.xml
Run09a_L1_maxVelKnt_metadata.xml
Run09a_L1_maxVorticity_metadata.xml
Run09a_L1_maxVorticity_pt_metadata.xml
Run09a_L1_minH_metadata.xml
Run09a_L1_pt_metadata.xml
Run09a_XXL1_ElevMHHW_metadata.xml
Run09a_XXL1_ElevNAVD_metadata.xml
Run09a_XXL1_FlowD_metadata.xml
Run09a_XXL1_inundation_metadata.xml
Run09a_XXL1_maxMF_metadata.xml
Run09a_XXL1_maxMF_minH_pt_metadata.xml
Run09a_XXL1_maxVelKnt_metadata.xml
Run09a_XXL1_maxVorticity_metadata.xml
Run09a_XXL1_maxVorticity_pt_metadata.xml
Run09a_XXL1_minH_metadata.xml
Run09a_XXL1_pt_metadata.xml
Run09d_akmax_ElevMHHW_metadata.xml
Run09d_akmax_ElevNAVD_metadata.xml
Run09d_akmax_FlowD_metadata.xml
Run09d_akmax_inundation_metadata.xml
Run09d_akmax_maxMF_metadata.xml
Run09d_akmax_maxMF_minH_pt_metadata.xml
Run09d_akmax_maxVelKnt_metadata.xml
Run09d_akmax_maxVorticity_metadata.xml
Run09d_akmax_maxVorticity_pt_metadata.xml
Run09d_akmax_minH_metadata.xml
Run09d_akmax_pt_metadata.xml
CR_maritime_model_Run10.gdb:
Run10a_L1_ElevMHHW_metadata.xml
Run10a_L1_ElevNAVD_metadata.xml
Run10a_L1_FlowD_metadata.xml
Run10a_L1_inundation_metadata.xml
Run10a_L1_maxMF_metadata.xml
Run10a_L1_maxMF_minH_pt_metadata.xml
Run10a_L1_maxVelKnt_metadata.xml
Run10a_L1_maxVorticity_metadata.xml
Run10a_L1_maxVorticity_pt_metadata.xml
Run10a_L1_minH_metadata.xml
Run10a_L1_pt_metadata.xml
Run10a_XXL1_ElevMHHW_metadata.xml
Run10a_XXL1_ElevNAVD_metadata.xml
Run10a_XXL1_FlowD_metadata.xml
Run10a_XXL1_inundation_metadata.xml
Run10a_XXL1_maxMF_metadata.xml
Run10a_XXL1_maxMF_minH_pt_metadata.xml
Run10a_XXL1_maxVelKnt_metadata.xml
Run10a_XXL1_maxVorticity_metadata.xml
Run10a_XXL1_maxVorticity_pt_metadata.xml
Run10a_XXL1_minH_metadata.xml
Run10a_XXL1_pt_metadata.xml
Run10d_akmax_ElevMHHW_metadata.xml
Run10d_akmax_ElevNAVD_metadata.xml
Run10d_akmax_FlowD_metadata.xml
Run10d_akmax_inundation_metadata.xml
Run10d_akmax_maxMF_metadata.xml
Run10d_akmax_maxMF_minH_pt_metadata.xml
Run10d_akmax_maxVelKnt_metadata.xml
Run10d_akmax_maxVorticity_metadata.xml
Run10d_akmax_maxVorticity_pt_metadata.xml
Run10d_akmax_minH_metadata.xml
Run10d_akmax_pt_metadata.xml
CR_maritime_model_Run11.gdb:
Run11a_L1_ElevMHHW_metadata.xml
Run11a_L1_ElevNAVD_metadata.xml
Run11a_L1_FlowD_metadata.xml
Run11a_L1_inundation_metadata.xml
Run11a_L1_maxMF_metadata.xml
Run11a_L1_maxMF_minH_pt_metadata.xml
Run11a_L1_maxVelKnt_metadata.xml
Run11a_L1_maxVorticity_metadata.xml
Run11a_L1_maxVorticity_pt_metadata.xml
Run11a_L1_minH_metadata.xml
Run11a_L1_pt_metadata.xml
Run11a_XXL1_ElevMHHW_metadata.xml
Run11a_XXL1_ElevNAVD_metadata.xml
Run11a_XXL1_FlowD_metadata.xml
Run11a_XXL1_inundation_metadata.xml
Run11a_XXL1_maxMF_metadata.xml
Run11a_XXL1_maxMF_minH_pt_metadata.xml
Run11a_XXL1_maxVelKnt_metadata.xml
Run11a_XXL1_maxVorticity_metadata.xml
Run11a_XXL1_maxVorticity_pt_metadata.xml
Run11a_XXL1_minH_metadata.xml
Run11a_XXL1_pt_metadata.xml
Run11d_akmax_ElevMHHW_metadata.xml
Run11d_akmax_ElevNAVD_metadata.xml
Run11d_akmax_FlowD_metadata.xml
Run11d_akmax_inundation_metadata.xml
Run11d_akmax_maxMF_metadata.xml
Run11d_akmax_maxMF_minH_pt_metadata.xml
Run11d_akmax_maxVelKnt_metadata.xml
Run11d_akmax_maxVorticity_metadata.xml
Run11d_akmax_maxVorticity_pt_metadata.xml
Run11d_akmax_minH_metadata.xml
Run11d_akmax_pt_metadata.xml
CR_maritime_model_Run12.gdb:
Run12a_L1_ElevMHHW_metadata.xml
Run12a_L1_ElevNAVD_metadata.xml
Run12a_L1_FlowD_metadata.xml
Run12a_L1_inundation_metadata.xml
Run12a_L1_maxMF_metadata.xml
Run12a_L1_maxMF_minH_pt_metadata.xml
Run12a_L1_maxVelKnt_metadata.xml
Run12a_L1_maxVorticity_metadata.xml
Run12a_L1_maxVorticity_pt_metadata.xml
Run12a_L1_minH_metadata.xml
Run12a_L1_pt_metadata.xml
Run12a_XXL1_ElevMHHW_metadata.xml
Run12a_XXL1_ElevNAVD_metadata.xml
Run12a_XXL1_FlowD_metadata.xml
Run12a_XXL1_inundation_metadata.xml
Run12a_XXL1_maxMF_metadata.xml
Run12a_XXL1_maxMF_minH_pt_metadata.xml
Run12a_XXL1_maxVelKnt_metadata.xml
Run12a_XXL1_maxVorticity_metadata.xml
Run12a_XXL1_maxVorticity_pt_metadata.xml
Run12a_XXL1_minH_metadata.xml
Run12a_XXL1_pt_metadata.xml
Run12d_akmax_ElevMHHW_metadata.xml
Run12d_akmax_ElevNAVD_metadata.xml
Run12d_akmax_FlowD_metadata.xml
Run12d_akmax_inundation_metadata.xml
Run12d_akmax_maxMF_metadata.xml
Run12d_akmax_maxMF_minH_pt_metadata.xml
Run12d_akmax_maxVelKnt_metadata.xml
Run12d_akmax_maxVorticity_metadata.xml
Run12d_akmax_maxVorticity_pt_metadata.xml
Run12d_akmax_minH_metadata.xml
Run12d_akmax_pt_metadata.xml
CR_miscellaneous.gdb:
Coseismic_response_Run05a_L1_metadata.xml
Coseismic_response_Run05a_XXL1_metadata.xml
Coseismic_response_Run05a_XXL1_pt_metadata.xml
DEM_Run03d_XXL1_metadata.xml
DEM_Run03d_XXL1_pt_metadata.xml
DEM_Run04a_XXL1_metadata.xml
DEM_Run04a_XXL1_pt_metadata.xml
Inundation_Runs_Compilation_akmax_metadata.xml
Inundation_Runs_Compilation_L1_metadata.xml
Inundation_Runs_Compilation_XXL1_metadata.xml
Simulated_gage_stations_metadata.xml
CR_simulated_gage_stations_attachments.xml