Rapid Damage Assessment Methodology for Catastrophic Souris River Flooding Minot, North Dakota

Rapid Damage Assessment Methodology for Catastrophic Souris River Flooding Minot, North Dakota Analyzing the Extent of Flooding Impacts Using Site Specific Analysis and User Generated Depth Grids Jesse Rozelle FEMA Region VIII Risk Analyst/Regional GIS Coordinator HIFLD Working Group Meeting Silver Springs, MD.

Souris (Mouse) River Geographical Context Headwaters in Southeastern Saskatchewan, Canada. Water controlled by the Alameda Rafferty Dam project. Water flows southeast into North Dakota, water controlled by the Lake Darling Dam. Approximately 20 miles southeast of Lake Darling is the city of Minot, North Dakota (2010 pop.- 40,888) Water flows southeast for roughly another 20 miles and then flows in a northeast direction into southwestern Manitoba, Canada 700km (435mi) in length and drains an area of 61,100km2 (23,600mi2).

2011 Flood Event Overview Physical influence behind Souris (Mouse) River flooding: Historic snowpack within Souris River Basin and surrounding drainages. Rapid spring snowmelt Heavily saturated soils Reservoirs at full capacity Multiple severe rainfall events Souris (Mouse) River: Dam Controlled Seasonal Average Flow ~200 to 2,000cfs 100yr floodplain = 5,000cfs 2011 Flooding Event Peak Flow Recorded June 26th ~ 24,000cfs

Lake Darling Anticipated Inflow/Outflow

2011 Flood Event Overview

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Task 1: USGS HWM MA Utilized RTK GPS to provide daily measurements of water surface +/- 0.1 accuracy Ground-truthed pre event lidar-based inundation modeling rather than creating IDW-depth grid from scratch Small expert USGS field team deployed from MT and WI working with ND office $26,000 total MA costs or $6 per damaged structure to provide accurate water depths at each structure relative to ground surface

Task 2: Oblique Imagery Contracted through USGS Rolla Mission Assignment High res (6 inch-5 way) product with pre-event available Ability to measure depth of water relative to finished floor Shared with community through a public website (minot.skygone.net) Not available for response but excellent to ongoing inspection validation $35,000 or $8.50 per impacted structure

Task 3: Imagery Exploitation Contract with ImageCat Engaged Catastrophe Assessment Network (CAN) analysts in academia and outside U.S. Completed in 3 days over July 4th weekend Joined assessments with parcel and IA data Completed detailed assessment of large loss structures (schools, significant facilities) $35,000 or $17 per impacted structure assessed

Rapid Turnaround Damage Assessment Rapid turnaround Damage Assessment needed Damage Assessment Accomplished using the following: Coordination with USGS to collect perishable data (high water mark collection). Pictometry Oblique Arial Imagery New Light/ImageCAT Damage Assesment Digital Globe Satellite Imagery Houston Engineering FEMA Region VIII Risk Analysis Team Near Real Time Results: Number of structures impacted by flood event Approximate depth of water at each impacted structure HAZUS site specific derived financial impacts Established an SOP(Standard Operating Procedure) for rapid turnaround Damage Assessments.

Rapid Turnaround Damage Assessment USGS High Water Mark Collection Preliminary inundation maps were produced for anticipated peak flows and sent into the field USGS captured locations (using Real Time Kinematic (RTK) GPS techniques) of the temporary levees and high water marks used to calibrate inundation depth model.

Rapid Turnaround Damage Assessment Pictometry Oblique Arial Imagery Captures 5 angles of oblique imagery, including orthophotos Assisted in obtaining structure attributes required for HAZUS financial loss estimation

Rapid Turnaround Damage Assessment ImageCat New Light Technologies Assisted in flood exposure development Determined occupancy types of structures in flooded area Residential basement identification as well as number of stories Flood depth protocols Identified priority areas for response Rapid online product development to support widespread interpretation

Rapid Turnaround Damage Assessment ImageCat New Light Technologies

Rapid Turnaround Damage Assessment

Rapid Turnaround Damage Assessment

Interagency Coordination/Collaboration USGS: Perishable Data Collection (High water marks) City of Minot: Pre-event Data LiDAR Pictometry Parcel Data Pictometry: Oblique Aerial Imagery New Light / ImageCAT: Damage Assessment Data Digital Globe satellite imagery Houston engineering: Depth Grid development NOAA: Stream Gauge Monitoring

Pre Event Data Collection Most critical component to Rapid Turnaround Damage Assessment Coordination with community Coordination with private sector Coordination with Federal, State, Local, and Tribal partners Rapid evaluation of population and building exposure to flood event Publically published maps gave displaced citizens a opportunity to understand the flooding situation

Questions? Jesse Rozelle 303-235-4786