The Thickness of Glacial Sediments in Connecticut and the Long Island Sound Basin layer contains interpretive polygon data representing the thickness of glacial sediments in Connecticut and the Long Island Sound Basin. Compiled as part of the Quaternary Geologic Map of Connecticut and Long Island Sound Basin, Stone and others (1998, 2005). Includes thickness of glacial sediments in 50 foot (0-50, 50-100) and then 100 foot (100-200, 200-300, etc) intervals. Data derived from original mapping at 1:80,000 scale for the Long Island Sound basin and at 1:125,000 scale on the land in Connecticut. The data are NOT recommended for use at higher resolution scales.
The purpose is to show the thickness of glacial sediments on land in Connecticut and in the Long Island Sound Basin. This layer can be used other geologic information shown on the Quaternary Geologic Map of Connecticut and Long Island Sound Basin (USGS publication SIM-2784) as well as other geologic GIS data layers for Long Island Sound derived from the U.S. Geological Survey (USGS) / Connecticut Department of Environmental Protection (DEP) Marine Geology Cooperative Program. Complimentary data layers include the marine transgressive surface (marinet) and thickness of postglacial deposits (pgthkpol) found on Georeferenced Sea-floor Mapping and Bottom Photography in Long Island Sound (USGS Openfile report 00-304).
These data appear as figure 2 on sheet 2 of the Quaternary Geologic Map of Connecticut and Long Island Sound Basin, Stone and others, 2005. Glacial and postglacial geologic deposits have long been studied on the land in Connecticut. Similar deposits are also present beneath modern marine sediments in Long Island Sound. Offshore geologic units in Long Island Sound are mapped largely from analysis of seismic-reflection profile data instead of from direct observation. The wasting away of the late Wisconsinan ice sheet, and the recession of its margin from south to north across Long Island Sound and Connecticut, was initiated when the rate of melting along the glacial margin exceeded the rate at which ice was flowing in from the north. Newly exposed lowlands and valleys were immediately filled with meltwater in the form of glacial lakes and ponds and meltwater streams. In these meltwater settings, much of the unsorted glacial debris (till) that melted out of the ice was sorted into layers of gravel, sand, silt, and clay. Glacial Lake Connecticut was impounded behind the Harbor Hill-Fishers Island- Charlestown moraine. At its maximum extent (when the ice front stood at a position near the present Connecticut shoreline) this glacial lake occupied all of the Long Island Sound Basin and extended into the mouths of the surrounding river valleys. The extensive glacial lake deposits that accumulated in Glacial Lake Connecticut often exceed 100m (328 ft) in thickness, and at one time very nearly completely filled in the Long Island Sound Basin. Today, these deposits have been locally extensively scoured by tidal currents (primarily in the eastern Sound) and generally lie beneath a blanket of Holocene marine sediment that is a few to 15m (45 ft) in thickness. To the north, Glacial Lake Hitchcock occupied the Central Valley north of Middletown, and smaller lakes and ponds occupied most river valleys. As meltwater streams carried sediment away from the receding ice front, these lakes and ponds were filled with sequences of stratified glacial deposits (most often deltaic), which choked the valleys. In upland areas, thick till deposits (e.g. drumlins) are locally scattered across the bedrock controlled topography which is generally mantled by a thin blanket of till (generally less than 5m or 15ft thick).
publication date
Data derived from original mapping at 1:80,000 scale for the Long Island Sound basin and at 1:125,000 scale on the land in Connecticut. These data are NOT recommended for use at higher resolution scales. Please note that the on-land portion of these data was developed at 1:125,000 scale, and even though it was developed as part of the Quaternary Map and by the same author as the Quaternary Map and the Surficial Materials Map (J.R. Stone) that those digital data layers (quaternary geology and surficial materials) were compiled at 1:24,000 scale - because of the difference in scale and compilation methods these data sets may be noticibly incompatible at inappropriate scales. Although this data set has been used by the State of Connecticut, Department of Environmental Protection, no warranty, expressed or implied, is made by the State of Connecticut, Department of Environmental Protection as to the accuracy of the data and or related materials. The act of distribution shall not constitute any such warranty, and no responsibility is assumed by the State of Connecticut, Department of Environmental Protection in the use of these data or related materials. The user assumes the entire risk related to the use of these data. Once the data are distributed to the user, modifications made to the data by the user should be noted in the metadata. When printing these data on a map or using it in a software application, analysis, or report, please acknowledge the State of Connecticut, Department of Environmental Protection as the source for this information. For example, include the following data source description when printing this layer on a map: Glacial Thickness - From the Thickness of Glacial Sediments in Connecticut and Long Island Sound Basin layer, compiled and published by CT DEP and USGS. Source map scale is 1:80,000 (LIS) and 1:125,000 (CT). The Long Island Sound Resource Center, CT DEP, and USGS must be referenced as the originator of the dataset in any future products or research derived from these data
Long Island Sound Resource Center
UConn Avery Point
1080 Shennecossett Rd
Mary DiGiacomo-Cohen (Long Island Sound Resource Center) for compiling and editing the digital data. Original research conducted by USGS and Connecticut Geological and Natural History Survey Cooperative Mapping Program; contributing authors include Janet R. Stone, Sally Needell, Ralph S. Lewis, Nancy F. Neff, and Steven M. Colman.
The THICKI_FT attribute is in feet and for the Long Island Sound area was derived from interpretation of analog seismic records generated by a Uniboom seismic system. The Uniboom employed for this project had a resolution of approximately 1-2 m; original contours were drawn at 10 meter intervals (and reinterpreted or converted to 50 and 100 foot intervals to agree with the onshore mapping interval). Considered accurate for use at appropriate scales.
All lines were digitized, edited and coded in a consistent maner. No additional checks for topological consistency were performed on this data set. Polygon features conform to the following topological rules. Polygons are single part. There are no duplicate polygons. Polygons do not self overlap. Polygons do not overlap other polygons. Lines are single part. Line features conform to the following topological rules. There are no duplicate lines. Lines do not self overlap. Lines do not overlap other lines. Lines intersect only at nodes, and nodes anchor the ends of all lines. Lines do not overshoot or undershoot other lines they are supposed to meet and intersect. In general, there are no duplicate features, unresolved intersections, overshooting lines, open polygons, sliver polygons, or unlabeled (unattributed) polygons. The tests of logical consistency were performed by the Long Island Sound Resource Center using ESRI ArcInfo software to maintain feature topology in ArcInfo coverage format. The data is topologically clean. The ArcInfo Clean function was repeatedly used following edits to verify topology and enforce a minimum distance between vertices of 10 feet (fuzzy tolerance) and a minimum allowed overshoot length of 0 feet (dangle length).
All available (previously published or compiled) data for the area has been presented. There are data gaps in central Long Island Sound where the presence of gas in the sediments makes the interpretation of underlying layers difficult or impossible. Data gaps are either unmapped areas or represented by polygon features having Thickness Interval attribute (THICKI_FT) values equal to "unknown".
For the Long Island Sound area, ship position was determined using Loran-C navigation (typical Loran accuracy for Long Island Sound is about 100 m). Additional horizontal error may have been introduced during the drafting of original compilation maps or the digitizing process. Data is considered accurate for use at 1:80,000 scale for Long Island Sound and 1:125,000 scale for Connecticut mainland.
mylar compilation sheet for thickness of glacial drift
mylar compilation sheet for thickness of glacial drift
Unpublished contour maps of the total drift thickness for western and west-central LIS
mylar compilation sheet of thickness of glacial deposits
glacialthk is in ArcInfo Coverage format having both polygon and line features. The name of the ArcInfo Coverage is GLACIALTHK.
Includes all line features from glacialthk (ArcInfo Coverage format). Glacial_Sediment_Thickness_Line.shp is in Shapefile format.
Glacial_Sediment_Thickness_Line is in GeoDatabase Feature Class format.
Selected contours from the hand drawn compilation sheets (4 maps total, originaly with 10m contour intervals) for LIS were digitized on a Calcomp 9100 using ArcInfo software. The section coverages were edited and edgematched (contours were modified where necessary to match at map section boundaries), and attributed. Coverage was projected to Connecticut State Plane Coordinate System, NAD27.
Long Island Sound Resource Center
UConn Avery Point
1080 Shennecossett Rd
The CT thickness map was digitized on a Calcomp 9100 using ArcInfo software, edited and attributed. Coverage was projected to Connecticut State Plane Coordinate System, NAD27.
Environmental and Geographic Information Center
Department of Environmental Protection
79 Elm St
Coverages CTthickness and LISthickness were appended and edited as necessary along the shoreline (interpolation by J.R. Stone and M.DiGiacomo-Cohen).
Long Island Sound Resource Center
UConn Avery Point
1080 Shennecossett Rd
Edited again in 2003 per review comments by USGS publication editors. Re-attributed and checked. Coverage projected to Connecticut State Plane Coordinate System, NAD83.
Long Island Sound Resource Center
UConn Avery Point
1080 Shennecossett Rd
Export to Shapefile format - Converted line feature data from an ArcInfo coverage named GLACIALTHK to a Shapefile named Glacial_Sediment_Thickness_Line.shp. Excluded the FNODE#, TNODE#, LPOLY#, RPOLY#, LENGTH, GLACIALTHK#, GLACIALTHK-ID attributes from the Shapefile because their values are only maintained by ArcInfo software with spatial data that is ArcInfo coverage format.
79 Elm Street
Convert to GeoDatabase Feature Class format - Defined new Feature Class named Glacial_Sediment_Thickness_Line; and imported the attribute definitions, loaded features and imported metadata from Glacial_Sediment_Thickness_Line.shp shapefile. Spatial Reference Properties for Feature Class: Coordinate System: NAD_1983_StatePlane_Connecticut_FIPS_0600_Feet XY Domain MinX: 100000; MaxX: 2247483.645 XY Domain MinY: 200000; MaxY: 2347483.645 Precision: 1000
79 Elm Street
Internal feature number.
ESRI
Feature geometry.
ESRI
Thickness Isopach - Glacial Sediment Thickness Isopach, in feet.
Long Island Sound Resource Center compiler, Mary DiGiacomo-Cohen
50 feet thick
compiler
100 feet thick
compiler
200 feet thick
compiler
300 feet thick
compiler
400 feet thick
compiler
500 feet thick
compiler
600 feet thick
compiler
Data limit. Not an isopach.
compiler
Line features are encoded for glacial sediment thickness in feet (50, 100, 200, 300, 400, 500, and 600). Line features that are encoded with sediment thickness values of 9999 define the (boundary) limits of the data and are not thickness isopach lines. They generally define the extremity of the data, following the Connecticut state boundary and southern boundary of the Long Island Sound basin. They also enclose areas where the glacial sediment thickness is unknown. Polygon features are encoded for glacial sediment thickness interval in feet (0-50, 50-100, 100-200, 200-300, 300-400, 400-500, 500-600, > 600, and unkown). Values of "unknown" represent areas where the presence of methane gas in the sediment makes the interpretation of underlying layers difficult or impossible.
Quaternary Geologic Map of Connecticut and Long Island Sound Basin (Stone, J.R., Schafer, J.P., London, E.H., DiGiacomo-Cohen, M.L., Lewis, R.S., and Thompson, W.B., 2005, U.S. Geological Survey special map, 2 sheets, scale 1:125,000).
79 Elm Street
Although this data set has been used by the State of Connecticut, Department of Environmental Protection, no warranty, expressed or implied, is made by the State of Connecticut, Department of Environmental Protection as to the accuracy of the data and or related materials. The act of distribution shall not constitute any such warranty, and no responsibility is assumed by the State of Connecticut, Department of Environmental Protection in the use of these data or related materials. The user assumes the entire risk related to the use of these data.
The data distributor does not provide custom GIS analysis or mapping services. Data is available in a standard format and may be converted to other formats, projections, coordinate systems, or selected for specific geographic regions by the party receiving the data.
Long Island Sound Resource Center, UConn Avery Point, 1080 Shennecossett Rd