FEM Flood Insurance Rate Maps By: Danny Greenwood For: Geog 483 Nature of Geographic Information Systems, Spring 2013 ssignment: Project 3 pg 1
bstract: In an attempt to regulate flood insurance rates uniformly in the United States the Federal Emergency Management gency(fem) has created a mapping system to generalize the risk of floods based on geographic features. These maps determine policies which communities can either benefit from or become ostracize by flood risk management. The quality, accuracy, and availability of these maps is crucial to determine where and how plans and policies in all levels of government and private industry assess their risks in flood zones. Introduction: In 1968 the federal government created the National Flood Insurance Program to identify flood risks and to regulate insurance policies(burby, 1990). Soon after this creation congress passed a series of laws which regulated the flood insurance industry(coble, 2013). With this change in legislation arose the need for a national mapping standard which unified and categorized flood risks into distinct zones. This provided the framework for the type of flood management standards we have today which both federal, state and local governments as well as private industry follow. The federal governments role in flood rates became regulatory when they assessed the failure of the private insurance industry. lso local governments failed to assess the risks of floodplains into their building codes which helped the federal government intact a more direct role. The mismanagement by both parties demanded federal attention mainly due to the catastrophic effects of flooding on property as well as the effects on lives. In order to enact the regulation the NFIP used a method of coercion. They required all new homes and building be raised to the level of a rated 100 year flood standard. The 100 year flood is not a flood that happens every 100 years but instead a flood that has a one percent probability of happening in any given year (Burby, 1990). The areas that comply to the NFIP standards are allowed to participate in the federal disaster assistance program and are qualified to purchase flood insurance. Since the enactment of the NFIP, amendments have been made to better meet its overarching goal and to enhance participation. In 1973 the flood disaster protection act was passed and with it came methods to entice local governments and property owners to adopt the insurance programs(burby, 2001). Failure to do so resulted in a loss of aid to help strengthen flood structures or reduce hazards. It also required that home owners with federally backed loans obtain flood insurance. This brought more participation into the program. In 1994 the program brought into effect an incentive method which gave rate breaks to certain insurance holders which mitigated flood hazards through better flood avoidance methods. With these measures in place and an increasing NFIP participation rate, a mapping assistance program became a very important task. FEM set out to produce these maps and provide them to the public for floodplain management and insurance purposes. FEM then designated standards so that insurance rates could reflect the risks of homes within certain areas. With accurately calculated risks based on actual flood hazard characteristics, FEM expects that market incentives will improve protection of homes and the prevention of building in high risk areas.
The Evolution of Flood Insurance Maps s stated earlier, FEM is the responsable agency for delivering quality and reliable flood maps to the public. Over the years the program has changed their methods of mapping as well as delivering mapping products. These changes came in light of both consumer demand and the need to provide attributal flood risks in a visual representation. FIRM, Q3, nd DFIRM Maps: The Ferderal Insurance Rate Maps(FIRMS) are based on the studies of regions called Flood Insuarance Studies (FIS). These studies are complied and help create the FIRM s of counties and municipalities as well as compare maps with flood risks. The studies include analysis of waterways, geography, geology, population, flood mitigation and history, climatology, and many other factors of flood conditions specific to the study area(fem, 2013). These early model maps were paper based and later were digitalized on FEM s website, known as FIRMetts. The FIRM maps include basic hydrographic and hypographic features like highways, basic roads, and waterways. lthough features help with the detail of the map, the purpose of features in FIRMS s are to reference special flood hazard zones within the area(sfh). These hazard zones are ranked based on the chance of certain magnitude floods happening in any given year(i.e. 100yr flood). The floodplains, floodways, and elevations are categorized into the zoning process as well as zones that are not effected by floods. The FIRM maps use vertical datum NGVD29 and NVD88 datum based on the year that they were produced(fe- M, 2007). The elevation values are used to measure the zones in base elevation flood levels. The base elevation flood level corresponds to the base flood known as the 100 year flood. Figure 1: FIRMette of Sutter County, C. Notice that there is a general level of topography (Feather River, Streets, etc.). lso notice there are distinct zones which in this example is shaded grey and labeled. FEM does provide a scale bar as well as information about the location and effective data. This is a primitive example of flood maps available today. Source: FEM FIRMette Mapping Service, Mapping Service Center; Genearted By Daniel Greenwood; using FEM Map Service Center Selection pg 3
drastic change in technology and increasing demand for more functional maps caused FEM to enact a policy to create spatial referenced digital maps for public use. FIRMS obviously became an outdated model due to the fact that they could not be adequately used with GIS technologies. The creation of Q3 addressed a main issue, that Flood maps without georeferenced capabilities are not practical for general use. FEM describes Q3 s as representations of FIRM s for desktop mapping(fem, 2013). Mainly this product enhanced the capabilities of emergency response methods by FEM as well as improving the NFIP s flood insurance program. One main issue with Q3 s however is that they are not certified to be used to delineate flood risk boundaries (FEM, 2013). In fact the Q3 maps are scanned images of FIRM paper maps which have been vectorized in order to represent coordinates. Like FIRM maps, Q3 maps contain zones for flood boundaries but does not include hydrographic and hypograpic features. Q3 data is available for purchase at the FEM map service center(here). Q3 data is also provided by certain local or state governments, i.e. figure 2 Q3 layer which was provided by the State of Washington Ecology Department. depiction of available Q3 data by county is shown in figure 3. ± E 0 0.5 1 2 Miles Sources: Esri, DeLorme, NVTEQ, TomTom, Intermap, increment P Corp., GEBCO,USGS, FO, NPS, NRCN, GeoBase, IGN, Kadaster NL, Ordnance Survey, Esri Japan, METI, Esri China (Hong Kong), swisstopo, and the GIS UserCommunity Figure 2: FEM Q3 Map of dams County Washington. Layered onto Topographic Base Layer. Source: FEM MSC DFIRM Database; Department of Ecology, Washington State; Esri Basemap. Created by Daniel Greenwood (25 pril, 2013) DFIRM s are better representations of FIRM maps as well as legal representations of flood hazard zones. They have been created to replace the Q3 digital maps in an attempt to provide more accurate digital GIS data(fem, 2005). DFIRMS are created using local vector control maps or USGS Digital Ortho Quads. They are better equipped for the modern age of technology because they have been standardized to meet stricter requirements. Once FEM obtains flood hazard zone data they convert that data into a standard projection, the traverse mercator, and standard coordinate system, UTM, with ND83 datum. This process makes the entire mapping system much more accurate and conformal than its predecessors. n important feature that Q3 maps does not provide and DFIRMS do are base flood elevations(bfe). Base elevation profiles are crucial for surveyors and insurers because they provide a compatible array of damage risks at certain heights in a 100 year flood occurrence. DFIRM methodology requires base elevation data be certified, guaranteeing more accurate measurements. In Figure 3, the base elevation is labeled with green lines and located within the E designated flood zone. Values represent the height of a 100 year flood for that particular area(fem, 2000). For example, a base flood of 83 feet would result in a total rise of flood water of 83 feet in a 100 year flood scenario. Figure 3 shows these BFE s in areas that are located along the rivers and stream floodways. s shown in figure 3, flood zones in DFIRM s can be represented as polygons but can also be represented as line features. FEM also provides base national geodetic control points for elevation profiles which were not depicted in the figure but are available for display. The Features in DFIRM data include water bodies, streams, transportation lines and Digital Elevation Models. Flood zone boundaries are much more acces- Figure 3: Q3 availability by County. Source: FEM Mapping Information Platform, updated pril 30, 2013.
Sutter County FEM Flood Zones Live Oak, C 70 99 Sutter County 20 Yuba City, C 20 99 70 143 65 Wheatland, C Plumas Lake, C 17 34 94 43 45 1 35 70 113 15 7 N 58 23 8 85 E 1 2 4 Miles 46 26 14 H 0 55 151 32 500 Year Flood 2 141 86 Flood Zone 78 O 47 Levee Protected Base Flood Elevation County Boundary State Highway Urban rea Tigerline Edge Features Sacramento, C Woodland, C 16 Figure 4: DFIRM Flood Zone Layers and Base Flood Elevations. Source: FEM DFIRM Database,U.S. Census Bureau Tigerline Shapefiles. Esri USGS and NO Basemap. Generated by Daniel Greenwood (25 pril, 2013) Sources: Esri, USGS, NO pg 5
Sheena Ct Edwin Dr sible in the new DFIRM Data. lthough most of Sutter County is not completely mapped a variety of flood zone designations are made available for the unincorporated areas. Zones the start with are considered the Special Flood Hazard rea s, which means that they reside in a 100 year flood plain or a 1% annual chance flood. The 500 year flood zone flood zone (colored orange in figure 3) corresponds to a lower risk.2% chance of annual flood. Zone is considered outside the flood hazard zone but still has insurance requirements. Tracy Dr TRCY DR PORTOL VLLEY RD Sessler Pl SESSLER PL Sessler Dr EDWIN DR n interesting look as line features is shown in figure 3. It is obvious from this depiction that FEM line features have a considerable amount of error when compared to tigerline features. When showing highly detailed large scale maps FEM line features should be used to reference flood hazard zones. Saint John Ct Germaine Dr SINT JOHN CT Portola Valley Rd ELDEN CT UGUST LN Kevin Dr KEVIN DR SHEEN CT GERMINE DR Rushing St Eli Ct Hazel ve The vailability of DFIRM data has progressed steadily over the years since being mandated by congress. DFIRMS now effectively cover a majority of households in the U.S.(See figure 5). Like Q3 data, some state and local governments provide DFIRM data free of charge. Data on the FEM Map Service Center can be downloaded for a fee. ugusta Ln PINEHURST DR PEBBLE BECH DR Pebble Beach Dr Wingfoot Dr FEM Transport Lines Tigerline Edge Features RJ CT Sources: Esri, USGS, NO Figure 5: Tigerline and FEM Transportation lines. Source: FEM DFIRM Database, U.S. Census Bureau Tigerline Shapefiles. Generated by Daniel Greenwood (27 pril, 2013) Figure 6: DFIRM Data vailability. Source: FEM Mapping Information Platform, updated May 2013. Generated using Flood Map View. https://hazards.fema.gov/wps/portal/mapviewer
Controversies and Conclusion: While changes to insurance zones are occurring with updated DFIRMS, many residents are left wondering what new zone designation their properties may fall in. Notice that in figure 3, only about a third or less of the county is actually included in the flood zone study. This is because FEM is waiting for local approval on a new levee enhancement project which will take place sometime in the next few years. Therefore, areas that are not mapped and will not be until the local construction process is completed. This creates a problem of stretching out the DFIRM mapping process and halts construction proposals as well as consumer choices until rates are determined. ccuracy of flood hazard areas is also a concern. Because of the workload FEM has encountered in creating maps it has taken millions of dollars and years to complete just a portion of the participating areas. Updating these maps in order to reflect the changes in local conditions is nearly impossible. Thus NFIP rates cannot achieve the accuracy that would lead to desired market conditions and properly assessed flood condition risks. nother failure of flood maps in cooperation with FEM s objectives are that maps are produced more so to reflect insurance needs and less for development and planning of flood zones(burby, 2001). Thus flood damages continue to increase instead of decrease. FEM has also started instituting higher rates for areas that have recent history of catastrophic flood damage. Efforts to enhance the overarching goal of flood damage prevention have lead the way to even more legislation. New York and the East Coast is a prime example of this new policy. Proposed increases in rates due to the flooding caused by Hurricane Sandy is justified by the damage caused that proved the existing map zoning system inaccurate. FEM gives owners a choice in high risk flood zones to either raise their homes base elevation or experience drastic increases in insurance rates. n estimated increase of some homes effected could see their rates jump from $1,000 a year to $15,000 a year(samuelson, 2013). In an already stricken community this policy does not bode well. It also reflects how FEM s flood designations fail at really determining flood risks. In light of the problems created by the task of mapping flood hazard zones there are also encouraging unseen added benefits from flood mapping. The improvements in emergency preparedness in times of flooding is the greatest feat. Because areas are better mapped with DFIRM data, geospatial analysts can quickly determine emergency response zones and then decipher accurate evacuation buffering zones(fem, 2013B). Because flood zones are provided as layers, other layers can be used to determine populations and housing characteristics which coincide with flood zones, saving both time and lives. Overall the FEM flood maps have come a long way. The changes from FIRMS to DFIRMS is indicative of growing needs for more sophisticated mapping products for an advanceing geospatial industry. lthough there are some pitfalls associated with the creation of flood maps, the fact that FEM is moving in the right direction is encouraging. pg 7
Sources Burby, J. M., Holway, R. J. (1990). The Effects of Floodplain Development Controls on Residential Land Values. Land Economics, Vol.66 (No.3) pg. 259-271 http://www.jstor.org/stable/3146728 Burby, R. J. (2001). Flood Insurance and Floodplain Management: The U.S. Experience. Environmental Hazards (2001 No.3) pg111-122 http://www.elsevier.com/locate/hazards Coble, K. H., Landry, C. E., Petrolia, D. R. (2013). Risk Preferences, Risk Perceptions, and Flood Insurance. Land Economics, Vol.89 (No.2) pg. 227-245 http://muse.jhu.edu/journals/land_economics/summary/v089/89.2.petrolia.html FEM (2000). How To Read Flood Insurance Rate Map Tutorial. ccessed pril 25, 2013 From, www.fema.gov/library FEM (2005). Digital Flood Maps: From Q3 Flood Data to DFIRMS. ccessed pril 25, 2013 From, www.fema.gov/library FEM (2013). Frequently sked Questions. ccessed pril 25, 2013 From, http://www.fema.gov/frequently-asked-questions FEM (2013B). GIS Tutorial Series 3. cccessed pril 27, 2013 From, http://www.fema.gov/online-tutorials Samuelson, (2013, pril, 28). Unfinished FEM Flood Maps Put Sandy Victims In Limbo. ccessed pril 30, 2013 From, http://www.npr.org/2013/04/28/179568786/new-jersey-homeowners-say-flood-maps-will-add-huge-costs
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