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Layer: CT Shorelines: 1983-2006 (ID:7)

View In:   Map Viewer

Name: CT Shorelines: 1983-2006

Display Field: DSAS_DATE

Type: Feature Layer

Geometry Type: esriGeometryPolyline

Description: A compiliation of historic data for CT from the late 1800s to the late 2000s from several sources: US Coast & Geodetic Survey/NOAA Topographic Survey Sheets, or T-Sheets (1870s, 1880s, 1900s, 1910s, 1930s, 1940s, 1950s, 1960s, 1980s & 2000s); USGS Topgraphic Maps (1950s, 1960s, 1970s, 1980s) & NOAA Environment Sensitivity Index (ESI) data (1990). Only data from the late 1800s, 1990, and the late 2000s provides complete coverage for the entire coast over a reasonably set period of time. All other data sources address sections of the coast, but not the entire state. As such, there are varying amounts of time-series data at any location along the coast. All data has been combined to utilize a uniform system of attributes - since the NOAA T-Sheet data was the most voluminous source of information their schema was used as the default; other data sources transferred similar data into the NOAA schema. There were various ways different source materiall defined and classified the shoreline; this descriptive information was retained in the field called "ATTRIBUTE" and to a lesser extent "INFORM." The "SOURCE_ID" field is used to track the varying source data types. Several temporally related fields exist: "SRCE_DATE" in YYYYMMDD format is the best representation of the source material date and is suitable for sorting chronologically; "DSAS_DATE" uses a format predifined for the DSAS software package and replicates the information from "SRC_DATE." The field "DECADE" allows for aggregation/sorting by decade. The field "UNCERT_M" is required by the DSAS software and represents a cummulative positional uncertainty estimate (in meters) for eaxh shoreline segment. The value combines best estimates for common sources of error - source survey/compilation, map georeferencing, map digitizing, and water level interpretation/location. The estimates are derived from serveral published papers from USGS when conducting similar studines witnin the northeast, and the total value represents the square root of the sum of squares. The field "CONCERN" identifies sections of shoreline that, under professional review, are deemd to be incorrectly located or eroneously depict shoreline. The review process entailed creating buffers based on the uncertainty values and comparing shorelines to assorted aerial photography. While the photo vintages and the shorelines were not complimentary in all cases, there are enough areas of immobility (e.g., rocky shorelines, exposed bedrock, certain manmade structures, etc.) that persist in stable enough positions to enable a general determination of goodness of fit. Shorelines that matched these features within the appropriate uncertainty buffers were identified as "N" for no concern: shorelines that exceeded the uncertainty bounds due to spatial misalignment issues (e.g., out of reference) or were likely misinterpreting the best location of shoreline (i.e., tidal flats instead of a higher water line) were identified as "Y." In cases were uncertainty bounds were exceeded, but there was no conclusive way to determine the reason, or if they were in an areas of high shoreline variability, they were assumed to be correct and coded as "N." Rather than being removed, they were coded as such to either (a) easily be omitted from any analysis, or (b) subject to a reassessment of uncertainty in order to be more appropriately used. The data is preconfiguered to be compatible with the USGS Digital Shoreline Analysis System (DSAS) and is suitable for both cartographic displays and more rigorus shoreline change analysis studies.

Copyright Text: NOAA, USGS, CT DEEP National Assessment of Shoreline Change: Historical Shoreline Change along the New England and Mid-Atlantic Coasts, by Cheryl J. Hapke, Emily A. Himmelstoss, Meredith G. Kratzmann, Jeffrey H. List, and E. Robert Thieler, Open-File Report 2010-1118. National Assessment of Shoreline Change Part 3: Historical Shoreline Change and Associated Coastal Land Loss Along Sandy Shorelines of the California Coast, by Cheryl J. Hapke, David Reid, Bruce M. Richmond, Peter Ruggiero and Jeff List, Open-File Report 2006-1219. The Predictive Accuracy of Shoreline Change Rate Methods and Alongshore Beach Variation on Maui, Hawaii Ayesha S. Genz†, Charles H. Fletcher†, Robert A. Dunn†, L. Neil Frazer†, and John J. Rooney‡ Journal of Coastal Research 23 1 87–105 West Palm Beach, Florida January 2007 †Department of Geology and Geophysics School of Ocean and Earth Science and Technology University of Hawaii ‡Joint Institute of Marine and Atmospheric Research University of Hawaii Pacific Islands Fisheries Science Center Improving Accuracy and Statistical Reliability of Shoreline Position and Change Rate Estimates Journal of Coastal Research 25 5 1069–1081 West Palm Beach, Florida September 2009 Peter Ruggiero† and Jeffrey H. List‡ †Department of Geosciences Oregon State University ‡Coastal and Marine Geology Program U.S. Geological Survey

Min. Scale: 1500100

Max. Scale: 0

Default Visibility: true

Max Record Count: 2000

Supported query Formats: JSON, geoJSON, PBF

Use Standardized Queries: True

Extent:

Drawing Info:

HasZ: false

HasM: false

Has Attachments: false

Has Geometry Properties: true

HTML Popup Type: esriServerHTMLPopupTypeAsHTMLText

Object ID Field: OBJECTID_1

Unique ID Field:

Global ID Field:

Type ID Field: DECADE

Fields:
Types:

Is Data Versioned: false

Has Contingent Values: false

Supports Rollback On Failure Parameter: true

Last Edit Date: 6/23/2025 5:14:25 PM

Schema Last Edit Date: 6/23/2025 5:14:25 PM

Data Last Edit Date: 6/23/2025 5:14:25 PM

Supported Operations:   Query   Query Pivot   Query Top Features   Query Analytic   Query Bins   Generate Renderer   Validate SQL   Get Estimates   ConvertFormat