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Long Beach Island Long Beach Island
Long Beach Island Beach-Dune Susceptibility Assessment Development and Applications Coastal Research Center Facility Great Bay… Na c ot eC ree k lic, b u Rep sey t r Po w J e r Ne Dr. Stewart Farrell Founder & Director • Public Research and Services Center at Richard Stockton College Who Who We We Are... Are... • Originated in 1981 to assist local municipalities with coastal issues • Community Outreach Program • Coastal Zone Surveying and Monitoring • Established and Maintain Over 100 Sites Along the Jersey Shore • Assessment of Coastal Features and Structures • Coastal Zone Management Related Activities • Federal, State, and Local Governments • Private Sector • Non-Profits What What We We Do... Do... Who Who We We Work Work For... For... Overview of Beach-Dune System Susceptibility Assessment • Assess “performance potential” of oceanfront beach-dune system • • • • Geospatial (GIS-based) Expert knowledge used to integrate multiple variables (fuzzy-set theory) Identifies weaknesses in the beach-dune system Highlights areas susceptible to storm-induced damage • Erosion and potential overwash or breach areas • Foredune sand volume change • Generates a GIS “susceptibility map” • Development & Applications… • “Alpha” - Holgate, NJ, Fall of 2002 • Proof-of-concept study • Susceptibility relative to other dunes in the assessment area • “Beta” - Mantoloking, NJ, Fall of 2004 • Dune toe recession used to control variable integration • Susceptibility calibrated to storm intensities • Regional-scale pilot assessment - Northern Ocean County, NJ (Spring 2007) • NJ Statewide assessment - Sandy Hook to Cape May (just underway) Observations ““The The Real World ” World” Data Processing & Analysis The DecisionMaking Process Policy Actions Standards Legislation DecisionMaking Interpretations Information Susceptibility of the Beach-Dune System • Surveying & Mapping … Mapping… •• •• •• Beach Beach Erosion Erosion Observations Observations (seasonal (seasonal & & annual annual “beach “beach walks”) walks”) Shore Shore Zone Zone Surveying Surveying (dune-beach-nearshore (dune-beach-nearshore profiles) profiles) & & Field Field Mapping Mapping LIDAR LIDAR and and Other Other Remote-Sensing Remote-Sensing Techniques Techniques • Analysis & … & Simulation Simulation… •• •• •• •• •• Trends Trends in in Long-Term Long-Term Monitoring Monitoring Data Data (regression (regression analyses, analyses, etc.) etc.) Change-Mapping Change-Mapping (time-slicing (time-slicing historical historical aerial aerial images, images, LIDAR) LIDAR) Spatial-Temporal Spatial-Temporal Process Process Modeling Modeling Time-series, Time-series, Wavelets, Wavelets, Fourier, Fourier, etc. etc. Deterministic Deterministic Numerical Numerical Simulations Simulations (SBEACH, (SBEACH, EDune, EDune, CHAMPS, CHAMPS, others) others) • Geospatial Modeling … Modeling… •• •• •• Identify Identify Datasets Datasets & & Derive Derive Variables Variables Useful Useful for for Determining Determining Susceptibility Susceptibility Weight Weight the the Importance Importance of of Variables Variables Integrate Integrate Variables… Variables… •• Create Create Map Map Showing Showing Levels Levels of of Susceptibility Susceptibility Surveying & Mapping … Mapping… New Jersey Beach Profiling Network •• Established Established in in 1986 1986 in in Response Response to to Hurricane Hurricane Gloria Gloria (1984) (1984) •• 100 100 Beach Beach Profile Profile Sites Sites •• At At least least 11 Site Site in in Every Every Oceanfront Oceanfront Municipality Municipality •• 77 Sites Sites Located Located in in the the Lower Lower Delaware Delaware & & Raritan Raritan Bays Bays •• Topographic/Bathymetric Topographic/Bathymetric Survey Survey from from Backdune Backdune to to -16ft -16ft Depth Depth Design and Considerations •• At At least least 11 profile profile site site in in each each community community •• Use Use existing/previous existing/previous survey survey locations locations •• Avoid Avoid proximity proximity to to groins groins or or inlet inlet jetties jetties •• Bracket Bracket tidal tidal inlets inlets with with aa survey survey site site •• Start Start survey survey profile profile behind behind dune dune or or other other shore shore protection feature protection feature •• Survey Survey each each Fall Fall (also (also Spring Spring since since 1994) 1994) •• Emergency Emergency surveys surveys following following declarations declarations •• Survey Survey natural natural areas areas Federal Federal disaster disaster •• Survey Survey sandy sandy shorelines shorelines in in Delaware Delaware & & Raritan Raritan bays bays Surveying & Mapping … Mapping… Surveying & Mapping … Mapping… Beach Profile Survey Equipment CDMA & RTK GPS “Total-Station” Laser Survey Transit Survey Rods, Radio, Flags Surveying & Mapping … Mapping… NJBPN Near shore bathymetric surveys •Provide cross-sectional beach profiles run cross-shore, from the landward extent of the dune to the near shore zone (beyond the extent of LiDAR elevation data). •Used in the creation of near shore and beach-dune surfaces used in the BeachDune susceptibility assessment Data Processing, Analysis, & Profile Calculation Analysis & Simulation… • LIght Detection And Ranging (LIDAR) Similar to RADAR (RAdio Detection And Ranging) • Collects broad, densely spaced, highly accurate elevation data • NOAA, USGS, NASA, Universities, and numerous private contractors • Shoreline Change, Coastal and Erosion Monitoring… Analysis & Simulation… • LiDAR data, combined with photogrammetry allows for creation of baseline datasets to perform delineations • • • • Dune Crest Landward and Seaward Dune Toes Shoreline 10 ft. Waterline LiDAR Point Distribution LiDAR Extracted Dune Delineations Analysis & Simulation… Rapid Analysis Generated from LIDAR Little Egg Inlet 439 Bins, Equal-Interval, 250-Foot Wide FEMA 540-Rule 3D dune crest elevation line Barnegat Inlet Analysis & Simulation… • The GIS-based beach-dune assessment integrates several geospatial datasets into weights of susceptibility within zonal analysis areas call “bins” • Bins run long-shore parallel to shoreline • Each bin divides the beach into 250-foot sections • Within each zonal analysis bin, geospatial calculations are performed to extract beach-dune characteristics based on base data such as LiDAR elevation data and Photogrammetric data. Bins are also used to symbolize various beach-dune attributes Analysis & Simulation… Digital Elevation Model (DEM) created using LiDAR data Surf City, Long Beach Island “Raw”, Unprocessed LIDAR Point Elevations Digital Elevation Model Analysis & Simulation… Vegetation Classification Field mapping & verification of dune vegetation… Dune vegetation and in-dune structures extracted from infrared aerial photography using image processing techniques… Analysis & Simulation… Other Geospatial Datasets Derived from LiDAR Data Slope Dune Dune Area Area Elevation Dune Dune Width Width Crest-Axis Profile LBI – HarveyDune Cedars Dune Crest -Axis Profile LIDAR Elevation Data From Fall of 2000 (looking from a boat at the beach, from the south to the north) 30 South of Eastward St. To South of Atlantic St. 25 S. of 68 To N. of 73 22 ft > Feet (NAVD88) 20 15 Dune Height Statistics 10 18.0 ft 25.9 ft 13.2 ft 12.7 ft Examples of isolated dune crest low areas (typically street ends) 5 Average Maximum Minimum Range 0 0 2000 Southern Boundary... 4000 6000 Feet from Southern Borough Boundary 8000 10000 …Northern Boundary Geospatial Modeling Fundamental Methods • Data-Driven • Statistical approach • Model parameters & weighting calculated from training sites • Weights of evidence, weighted logistic regression, neural networks, fractal methods • Knowledge-Driven • Expert system approach • Model parameters & weighting estimated by expert(s) • Boolean logic, index-overlay, process models, Fuzzy logic, Dempster-Shafer belief theory • All Models are Wrong… • But they provide insight • Only a tool to facilitate analysis, not replace the expert Geospatial Modeling Basic Approach Raw Datasets Maps Weighting Map of Correlation, Suitability, Favorability, Probability, Susceptibility, etc. Optimize The “ Model ” Integration Geospatial Modeling Beach -Dune Susceptibility Beach-Dune Susceptibility Modeling Modeling Geospatial Modeling Weighting Weighting of of Beach-Dune Beach-Dune System System Attributes Attributes Variables Calculated on a Per Bin Basis •Average Dune-Crest Elevations Values Values Normalized Normalized Between Between 00 and and 11 •Dune Width •Beach Width Values Combined Together •Percent Vegetation Coverage •Presence of Groins •Foredune Slope Weighted Weighted Susceptibility Susceptibility Value Value Per Per Bin Bin Analysis & Simulation… • LiDAR generated profiles combined with a U.S Army Corps storm simulation model CEDAS (Storm-induced BEAch CHange) SBEACH … • Simulates 2D beach profiles for 2-year, 5-year, 10-year, 20-year, 50-year storm events using Federal Emergency Management Association (FEMA) based storm parameters • SBEACH storm simulations provide… • Dune recession analysis • Volume change analysis • Dune breach vulnerability points Analysis & Simulation… • Pre -Storm profile Pre-Storm • Post -Storm (50 year storm) profile Post-Storm SBEACH Pre and post storm profile output Geospatial Modeling Linking Susceptibility to Modeled Storm Event Intensity • SBEACH (Storm-induced BEAch CHange) • USACE Coastal & Hydraulics Lab • Numerical simulation of cross-shore beach change • Intended to predict short-term beach profile response to storms Recession of Dune Toe Nearly to Dune Crest for 20-Year Storm ---year storm --- 50 50-year storm event event ---year storm --- 20 20-year storm event event ---year storm --- 10 10-year storm event event Lower In Relation to Storm Intensities with Respect to Dune Toe Recession Higher Dune Dune Crest Crest Breached Breached Geospatial Modeling Digital Digital Elevation Elevation Model Model made made from from LiDAR LiDAR year year 2005. 2005. High High and and wide wide dune dune system system The beach-dune susceptibility assessment highlights areas of low and high susceptibility. Illustrated in the top right image are two contrasting regions located within a mile radius. The digital elevation model used in all of the images depicts areas of higher elevation with warmer colors (reds) and areas of low elevation with cooler colors (blues). 20 yr Storm Susceptibility Strip Low Low and and narrow narrow dune dune system system Geospatial Modeling 20 yr Storm Susceptibility Strip During During aa storm storm event event Low Low and and narrow narrow dune dune system system of of Merivale Merivale Avenue Avenue Geospatial Modeling Wide beaches at Tebco Avenue, Holgate NJ The susceptibility model predicts that this region of Holgate will provide adequate protection against a 20-year storm event. Good sloping, highly vegetated dune system Geospatial Modeling Barnegat Light Borough Dune System Barnegat Light Borough has undoubtedly the strongest natural dune systems on Long Beach Island. It is one of the only regions which meets the FEMA 540 front dune volume. Natural Natural Dune Dune System System in in Barnegat Barnegat Light Light Geospatial Modeling The FEMA 540-rule definition states: "primary frontal dunes will not be considered as effective barriers to base flood storm surges and associated wave action where the cross-sectional area of the primary frontal dune, as measured perpendicular to the shoreline and above the 100-year stillwater flood elevation and seaward of the dune crest, is equal to, or less than, 540 square feet." FEMA 540-Rule: Frontal Dune, Average Cross-Sectional Area Dune Toe Recession Past Dune Crest… Slump Blocks, Just Short of Dune Crest, Formed by Undercutting • What it is… • An assessment to identify weaknesses in the beach-dune system… • Areas where some degree of erosion or failure is likely to occur • An analysis of natural and anthropogenic dune-related features… • Dune height, width, slope, vegetation, etc. • Sand-fencing, sand-retaining structures, dune modification, etc. • A synthesis of multiple datasets that vary in character and size on spatial scales at least as small as a property block • Performed within discrete spatial zones (“bins”) along beach-dune system length • What it is Not… • Not a probability model… • Does not provide a probability of dune erosion, overwash, breach… • Does not predict effects of damage due to dune erosion, overwash, or failure • Not a wave impact / dune erosion simulation • Not a long- or short-term shoreline change/evolution model • Not comprehensive… • Does not take into account sand volumes (yet) and other variables • Not a means of determining insurance rates, pricing real estate, predicting structural damage, etc.
