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Connecticut Surficial Aquifer Texture
SDE Feature Class - depgis.DEP.SURFICIAL_AQUIFER_TEXTURE
FGDC, ESRI Metadata
DescriptionGraphicSpatialData StructureData QualityData SourceData DistributionMetadata
+ Resource Description
Citation
Information used to reference the data.
Title: Connecticut Surficial Aquifer Texture
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 20090114
Data type: vector digital data
Other citation details:
Connecticut Surficial Aquifer Texture is a derivative data product of the 1:24,000-scale Connecticut Surficial Materials data. Connecticut Surficial Materials was digitized from 1:24,000-scale compilation sheets used to prepare and publish a 1:125,000-scale statewide map, Surficial Materials Map of Connecticut, Stone and Others, 1992.
Development of the Surficial Aquifer Texture Map was supported by the Connecticut Department of Environmental Protection  Nonpoint Source Management Program, through Section 319 of the Federal Clean Water Act, administered by the US Environmental Protection Agency. 
Larger Work Citation
Title: Surficial Materials Map of Connecticut
Originators: Janet Radway Stone, U.S. Geological Survey
John P. Schafer, U.S. Geological Survey
Elizabeth Haley London, U.S. Geological Survey
Woodrow B. Thompson, U.S. Geological Survey
Series name: U.S. Geological Survey special map, 2 sheets
Series identification: None
Publisher: U.S. Department of the Interior, U.S. Geological Survey
Publication place: Reston, Virginia, USA
Publication date: 1992
Data type: map
Other citation details:
The Surficial Materials Map of Connecticut is published by the U.S. Geological Suvey in cooperation with the State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey. The map is available for purchase from the Connecticut DEP Store or U.S. Geological Survey. Scale 1:125,000.
Description
A characterization of the data, including its intended use and limitations.
Abstract:
The Surficial Aquifer Texture Map was prepared from the Surficial Materials Map of Connecticut (Stone, J.R., Schafer, J.P., London, E.H. and Thompson, W.B., 1992, U.S. Geological Survey special map, 2 sheets, scale 1:125,000) to describe unconsolidated areas of the subsurface with similar properties relative to ground water flow. Surficial aquifers are unconsolidated geologic deposits capable of yielding a sufficient quantity of groundwater to wells. Surficial aquifer textures were identified from original surficial materials mapping for use in ground water applications. These are qualitative interpretations of material properties relative to ground water flow. Surficial aquifer texture groups were identified to represent aquifer textures with similar hydraulic conductivities. Some interpretations were made beneath postglacial alluvium and swamp deposits. Alluvium without a subsurface interpretation was classified as having similar hydrologic properties as till.  Alluvium areas with subsurface interpretations of fines or coarse grained deposits were classified as having the hydrologic characteristics of the underlying deposits. The aquifer textures include areas of till, fine grained, fine overlying coarse grained, coarse grained, coarse overlying fine grained deposits, artificial fill, beach, salt marsh, swamp, and water. Aquifer texture groups include areas of fine grained , fine overlying coarse grained, coarse grained, and coarse overlying fine grained deposits. Surficial materials not included in the surficial aquifer texture groups include till, artificial fill, beach, salt marsh, swamp, and water. All textural terms follow the grain size classification of Stone et al 1992, modified from Wentworth, 1922. The surficial aquifer texture classifications are suitable for use at 1:24,000 scale.


Original mapping of the Surficial Materials Map of Connecticut is preserved as polygon attribute values in this data layer, and is herein described. The Surficial Materials Map of Connecticut portrays the glacial and postglacial deposits of Connecticut in terms of their aerial extent and subsurface textural relationships. Glacial Ice-Laid Deposits (thin till, thick till, end moraine deposits) and Postglacial Deposits (alluvium, swamp deposits, marsh deposits, beach deposits, talus, and artificial fill) are differentiated from Glacial Meltwater Deposits. The meltwater deposits are further characterized using four texturally-based map units (g = gravel, sg = sand and gravel, s = sand, and f = fines). In many places a single map unit (e.g. sand) is sufficient to describe the entire meltwater section.  Where more complex stratigraphic relationships exist, "stacked" map units are used to characterize the subsurface (e.g. sg/s/f - sand and gravel overlying sand overlying fines). Where postglacial deposits overlie meltwater deposits, this relationship is also described (e.g. alluvium overlying sand). Map unit definitions (Surficial Materials Polygon Code definitions, found in the metadata) provide a short description of the inferred depositional environment for each of the glacial meltwater map units. This map was compiled at 1:24,000 scale, and published at 1:125,000 scale.

Connecticut Surficial Materials is a 1:24,000-scale, polygon and line feature-based layer describing the unconsolidated glacial and postglacial deposits of Connecticut in terms of their grain-size distribution (texture) as compiled at 1:24,000 scale for the Surficial Materials Map of Connecticut. Glacial meltwater deposits (stratified deposits) are particularly emphasized because these sediments are the major groundwater aquifers in the State and are also the major source of construction aggregate. These deposits are described in terms of their subsurface distribution of textures as well as their extent. The texture of meltwater deposits through their total vertical thickness in the subsurface is shown to the extent that it is known or can be inferred. In some places only one textural unit (such as SG - Sand and Gravel) describes the whole vertical extent of the meltwater deposits; in other places 'stacked units' (such as SG/S/F - Sand and Gravel overlying Sand overlying Fines) indicate changes of textural units in the subsurface. Polygon features represent individual textural (surficial material) units with attributes that describe textural unit type and size. Examples of polygon features that are postglacial deposits include floodplain alluvium, swamp deposits, salt-marsh and estuarine deposits, talus, coastal beach and dune deposits, and artificial fill. Examples of glacial ice-laid deposits include till, thin till, thick till and end moraine deposits. Examples of glacial melt-water deposits include gravel, sand and gravel, sand, and very fine sand, silt and clay. Additional polygon features are incorporated to define surface water areas for streams, lakes, ponds, bays, and estuaries greater than 5 acres in size. Line features describe the type of boundary between individual textural units such as a geologic contact line between two different textural units or a linear shoreline feature between a textural unit and an adjacent waterbody. Data is compiled at 1:24,000 scale and is not updated.
Purpose:
The Connecticut Surficial Aquifer Texture Map has been prepared for ground water resource protection, water management, non-point source pollution prevention, and land use planning. Surficial aquifer texture groups were prepared to describe unconsolidated areas of the subsurface with similar properties relative to ground water flow. The Surficial Aquifer Texture classifications are based on the Surficial Materials Map of Connecticut, and are 1:24,000-scale data suitable for geologic and environmental mapping and analysis purposes. Not intended for maps printed at map scales greater or more detailed than 1:24,000 scale (1 inch = 2,000 feet.). Not intended for analysis with other digital data compiled at scales greater than or more detailed than 1:24,000 scale. 

Development of the Surficial Aquifer Texture Map was supported by the Connecticut Department of Environmental Protection  Nonpoint Source Management Program, through Section 319 of the Federal Clean Water Act, administered by the US Environmental Protection Agency.

Note, the Surficial Materials layer is complemented by the Quaternary Geology layer, which is based on the 1:24,000-scale compilation sheets for the 1:125,000-scale Quaternary Geologic Map of Connecticut and Long Island Sound Basin (U.S.G.S. Scientific Investigations Map 2784). The Quaternary Geologic Map of Connecticut and Long Island Sound Basin provides information on the distribution of depositional environments of glacial meltwater deposits.
Supplemental information:
GEOLOGIC DISCUSSION - The following text is excerpted from the text on sheet 1 of the Surficial Materials Map of Connecticut, Stone and others, 1992. It has been modified as necessary for use with the 1:24,000 scale digital data, and is not considered a valid substitute for the information found on the published map. For a more complete understanding of the geologic principles behind the Surficial Materials data it is advisable to consult the published map, which contains cross sections, diagrams and text not available in digital form.

DISCUSSION OF SURFICIAL MATERIALS - The unconsolidated deposits overlying bedrock in Connecticut range from a few feet to several hundred feet in thickness. These earth materials significantly affect human development of the land. Most of the unconsolidated materials are deposits of continental glaciers that covered all of New England at least twice during the Pleistocene ice age. These glacial deposits are divided into two broad categories, glacial till and glacial stratified deposits. Till, the most widespread glacial deposit, was laid down directly by glacier ice and is characterized by a nonsorted matrix of sand, silt, and clay with variable amounts of stones and large boulders. Glacial meltwater deposits are concentrated in both small and large valleys and were laid down by glacial meltwater in streams and lakes in front of the retreating ice margin during deglaciation. These deposits are characterized by layers of well-sorted to poorly sorted gravel, sand, silt, and clay. Postglacial sediments, primarily floodplain alluvium and swamp deposits, make up a lesser proportion of the unconsolidated materials of Connecticut. Alluvium is largely reworked from glacial materials and has similar physical characteristics.

The distribution of surficial (unconsolidated) materials that lie between the land surface (below the pedogenic soil) and the bedrock surface is shown on this map to the extent that it is known or can be inferred. The cross sections and the block diagram shown on the published map (Stone and others, 1992) illustrate the characteristic vertical distribution of glacial till, glacial meltwater deposits, and postglacial deposits encountered in Connecticut. The areal distribution of till and stratified deposits is related to the physiographic regions of the State: the eastern and western highlands and the central lowland. In highland areas, till is the major unconsolidated material, present as a discontinuous mantle of variable thickness over the bedrock surface. Till is thickest in drumlins and on the northwest slopes of hills. Glacial meltwater deposits that average 10-40 feet in thickness overlie the till in small upland valleys and commonly in north-sloping pockets between bedrock hills. In the central lowland, especially in the north half, glacial stratified deposits are the predominant surficial materials. These deposits generally overlie till; however, well logs indicate that in some places till is not present and the stratified deposits lie directly on bedrock. The extensive stratified deposits of the central lowland average 50-100 feet in thickness, and in the northern part they almost completely mask the till-draped bedrock surface. Postglacial materials locally overlie the glacial deposits throughout the State. Alluvium occurs on the floodplains of most streams and rivers. Swamp deposits occur in poorly drained areas. Talus occurs along the bases of steep bedrock cliffs, principally along the traprock ridges within the central lowland. Salt-marsh and estuarine deposits occur mainly along the tidal portions of streams and rivers entering Long Island Sound. Beach deposits occur along the shoreline of Long Island Sound.

The units on this map delineate textural changes in the subsurface as well as areally at the surface. An earlier map at 1:125,000 scale of central Connecticut (Stone and others, 1979) shows only surface textural units; a separate map in the same series (Langer, 1979) shows subsurface deposits of fine-grained materials. Several previous 1:24,000-scale quadrangle maps in Connecticut show three-dimensional textural units and refer to them as 'superposed deposits' (see Stone, 1976 and Radway and Schnabel, 1976, as examples). On this map, the term 'stack unit' (Kempton, 1981) is used in place of superposed deposits.

DISTRIBUTION OF TEXTURES IN GLACIAL MELTWATER DEPOSITS - The distribution of textural units is extrapolated from both point data (well and test-hole logs, gravel pits, and shovel holes) and from interpretation of landforms based on the principles of morphosequence deposition and systematic northward ice retreat (Koteff, 1974; Koteff and Pessl, 1981). These concepts provide a model by which grain-size distribution can be predicted from the morphology of a deposit, given primary data about the textures at specific points. A morphosequence is a package of sediments deposited contemporaneously by meltwater flowing from the glacier margin to a specific base level. Within a morphosequence, grain size decreases and sorting improves from the ice-marginal (proximal) end of a deposit downstream to the distal end. Landforms are transitional within a sequence as well, ranging from ice-contact forms (eskers, kettles, kames) at the head (proximal end) of a deposit to uncollapsed forms (delta-foreset slopes, lake-bottom plains, valley trains) downstream (distal end). Coarser grained sediments are associated with the proximal parts of morphosequences, finer grained sediments are associated with distal parts; given this principle, textural distribution can be mapped using point data that serve as controls.

The relationship between textural variations and morphosequences is illustrated by a cross section on the published map, which shows the distribution of texture units in the northern Quinnipiac River valley. This north-south section transects seven chronologically numbered morphosequences. Dashed lines drawn to the six southern sequences represent the probable generalized surface gradients of the heads of these deposits, prior to collapse (due to melting of buried ice) and subsequent stream entrenchment. From north to south within each of these sequences, the textures grade from coarse- to fine-grained sediments and the topography changes from collapsed to non-collapsed landforms. The longitudinal and vertical relationships illustrated by this section are common in other valleys as well.

Stack units similar to those on the section described above occur throughout the stratified deposits of Connecticut. Many deposits having similar superposition of materials of differing texture were produced by geologic processes that occurred repeatedly in time and space during the deglaciation of Connecticut. For example, the SG/S/F and S/F stack units commonly occur in glacial-lake deltas. The SG/F stack unit commonly results from fluvial meltwater (or postglacial stream) terrace deposition on slightly older lake bottom deposits. The F/SG and S/SG units commonly occur in the distal parts of morphosequences where the sand or fines overlap the collapsed, coarser, proximal parts of other (older) sequences. Many basic texture units (G, SG, S, F) likewise have broadly common origins. Units of gravel or sand and gravel often occur in the proximal parts of deposits, or were commonly laid down in glaciofluvial environments. Units of sand and fine-grained sediment are typically associated with distal parts of sequences and were usually laid down in lacustrine environments.

THICKNESS OF MATERIALS - The thickness of surficial materials in Connecticut varies considerably because of such factors as the high relief of the bedrock surface, changing conditions of deposition during deglaciation, and various effects of postglacial erosion and removal of glacial sediments. For more information on the thickness of deposits and the point data used to determine stacked units, it is beneficial to review the complete text and figures on the published map.

DESCRIPTION OF MAP UNITS

GLACIAL ICE-LAID DEPOSITS - Glacial ice-laid deposits (tills) consist of nonsorted, generally nonstratified mixtures of grain-sizes ranging from clay to large boulders. The matrix of most tills is composed dominantly of sand and silt. Boulders within and on the surface of tills range from sparse to abundant. Some tills contain lenses of sorted sand and gravel and, less commonly, masses of laminated fine-grained sediments. The color and lithology of till vary across Connecticut, but generally reflect the composition of the local underlying and northerly adjacent bedrock from which the till was derived. Till blankets the bedrock surface in variable thickness, ranging from 0 to about 200 ft, and commonly underlies stratified meltwater deposits. Tills deposited during two separate glaciations occur in superposition within Connecticut (Pessl and Schafer, 1968). The upper till was deposited during the last (late Wisconsinan) glaciation; it is the most extensive till and is commonly observed in surface exposures, especially in areas where till thickness is less than 15 ft; it is described in the thin till unit description below. The lower till or 'old' till was deposited during an earlier glaciation (probably Illinoian). The lower till has a more patchy distribution; it is principally a subsurface deposit, generally overlain by upper till, and therefore not shown as a separate map unit; the lower till does however constitute the bulk of material in the areas where till thickness is greater than 15 ft; it is described in the thick till unit description below. In all two-till exposures, the base of the upper till truncates the weathered surface of the old till. The lower part of the  upper till commonly displays a zone of shearing, dislocation, and brecciation in which clasts of lower till are mixed and incorporated into the upper till. End moraine deposits occur principally in southeastern Connecticut. These deposits were laid down by ablation processes along active ice margins during retreat of the last (late-Wisconsinan) ice sheet.

Glacial Ice-Laid deposits include Thin till (T), Thick till (TT), and End moraine deposits (TS).

GLACIAL MELTWATER DEPOSITS - Glacial meltwater deposits (stratified deposits) consist of layers of well-sorted to poorly sorted gravel, sand, silt, and clay laid down by flowing meltwater in glacial lakes and streams which occupied the valleys and lowlands of Connecticut during retreat of the last ice sheet. Textural variations within the meltwater deposits occur both areally and vertically because meltwater-flow regimes were different in glaciofluvial (stream), glaciodeltaic (where a stream entered a lake), and glaciolacustrine (lake bottom) depositional environments. Grain-size variations also resulted from meltwater deposition in positions either proximal to or distal from the retreating glacier margin, which was the principal sediment source. A common depositional scenario contained a proximal, ice-marginal meltwater stream in which horizontally bedded glaciofluvial gravel and/or sand and gravel were laid down; farther down valley, the stream entered a glacial lake where glaciodeltaic sediments were deposited consisting of horizontally layered sand and gravel delta-topset beds overlying inclined layers of sand in delta-foreset beds. Farther out in the glacial lake, glaciolacustrine very fine sand, silt, and clay settled out on the lake bottom in flat-lying, thinly bedded layers. Mappable textural variations are present in the vertical section of meltwater deposits in many places. This stacking of textural units commonly resulted from locally changing conditions of meltwater deposition. For example, glacial lakes drained upon ice retreat from particular positions. This may have been followed locally by distal glaciofluvial (stream) deposition from ice positions farther up valley. The resulting vertical section shows meltwater terrace sediments consisting of horizontally bedded fluvial sand and gravel which overlie lake-bottom sediments of very fine sand, silt and clay (shown as unit SG/F on the map). In other places glaciodeltaic deposition over an extended period of time in a particular glacial lake caused deltaic deposits (sand and gravel topset beds over sand foreset beds, unit SG/S) to prograde farther out into the lake and to overlie lake-bottom sediments; such deposits are shown as stack unit SG/S/F on the map.

Meltwater deposits are shown on this map as four basic units: gravel, sand and gravel, sand, and fines. Grain-size terminology used to define the textural range within these units is modified from Wentworth, 1922. Stack units are also shown; these are combinations of the four basic units in various orders of superposition. The map units described below show the texture of meltwater deposits through the total vertical section to the extent that it is known or can be reasonably inferred. In some places only one textural unit (such as unit SG) describes the entire vertical thickness of the meltwater deposits. In other places stack units (such as units SG/S/F or S/F) indicate changes of textural units in the subsurface. Common depositional environments for each textural unit are given in parentheses after each unit description.

Glacial meltwater deposits are represented by the following categories. Fine deposits include Fines (F). Coarse deposits include Gravel (G), Sand and Gravel (SG), and Sand (S). Stacked Coarse deposits include Gravel overlying Sand and Gravel (G/SG), Gravel overlying Sand (G/S), Sand and Gravel overlying Sand (SG/S), Sand and Gravel overlying Sand overlying Sand and Gravel (SG/S/SG), Sand overlying Gravel (S/G), and Sand overlying Sand and Gravel (S/SG). Stacked Coarse Deposits Overlying Fine deposits include Gravel overlying Sand overlying Fines (G/S/F), Gravel overlying Fines (G/F), Sand and Gravel overlying Sand overlying Fines (SG/S/F), Sand and Gravel overlying Fines (SG/F), and Sand overlying Fines (S/F).

POSTGLACIAL DEPOSITS include Floodplain alluvium (A), Alluvium overlying undifferentiated coarse deposits (A/SG), Alluvium overlying Sand (A/S), Alluvium overlying Fines (A/F), Alluvium overlying undifferentiated coarse deposits overlying Fine deposits (A/SG/F), Alluvium overlying Sand overlying Fines (A/S/F), Alluvium overlying undifferentiated Fine deposits overlying coarse deposits (A/F/SG), Alluvium overlying Fines overlying Sand (A/F/S), Swamp deposits (SW), Swamp deposits overlying undifferentiated coarse deposits (SW/SG), Swamp deposits overlying Sand (SW/S), Swamp deposits overlying Fines (SW/F), Swamp deposits overlying Sand overlying undifferentiated coarse deposits (SW/S/SG), Swamp deposits overlying sand overlying Fines (SW/S/F), Swamp deposits overlying Fines overlying Sand (SW/F/S), Salt-marsh and tidal-marsh deposits (SM), Salt-marsh and tidal-marsh deposits overlying Sand (SM/S), Salt-marsh and tidal-marsh deposits overlying Fines (SM/F), Salt-marsh and tidal-marsh deposits overlying Sand overlying Fines (SM/S/F), Talus (TA), Beach deposits (B), and Artificial Fill (AF).

REFERENCES

Deane, R.E., 1967, The surficial geology of the Hartford South quadrangle, with map: Connecticut Geological and Natural History Survey Quadrangle Report 20, 43 p.

Haeni, F.P., and Anderson, H.R., 1980, Hydrogeologic data for south-central Connecticut: Connecticut Water Resources Bulletin 32,43 p.

Kempton, J.P., 1981, Three-dimensional geologic mapping for environmental studies in Illinois: Illinois Geological Survey Environmental Geology Note 100, 43 p.

Koteff, Carl, 1974, The morphologic sequence concept and deglaciation of southern New England, in Coates, D.R., ed., Glacial geomorphology: Binghamton, N.Y., State University of New York, Publications in Geomorphology, p. 121-144.

Koteff, Carl, and Pessl, Fred, Jr., 1981, Systematic ice retreat in New England: U.S. Geological Survey Professional Paper 1179, 20 p.
 
Langer, W.H., 1979, Map showing distribution and thickness of the principal fine-grained deposits, Connecticut Valley urban area, central New England: U.S. Geological Survey Miscellaneous Investigations Series Map I-1074-C, scale 1:125,000.

Mazzaferro, D.L., 1973, Hydrogeologic data for the Quinnipiac River basin, Connecticut: Connecticut Water Resources Bulletin 26, 54 p.

Pessl, Fred, Jr., and Schafer, J.P., 1968, Two-till problem in Naugatuck-Torrington area, western Connecticut, in Orville, P.M., ed., New England Intercollegiate Geological Conference 60th Annual Meeting, New Haven, Conn., Oct. 25-27, 1968, Guidebook for fieldtrips in Connecticut: Connecticut Geological and Natural History Survey
Guidebook 2, Trip B-1, 25 p.

Radway, J.A., and Schnabel, R.W., 1976, Map showing unconsolidated materials, Avon quadrangle, Connecticut: U.S. Geological Survey Miscellaneous Field Studies Map MF-514-C, scale 1:24,000. Ryder, R.B., and Weiss, L.A., 1971, Hydrogeologic data for the Upper Connecticut River basin, Connecticut: Connecticut Water Resources Bulletin 26, 54 p.

Stone, J.R., 1976, Map showing unconsolidated materials, Windsor Locks quadrangle, Connecticut: U.S. Geological Survey Miscellaneous Field Studies Map MF-450-E, scale 1:24,000. 

Stone, J.R., London, E.H., and Langer, W.H., 1979, Map showing textures of unconsolidated materials, Connecticut Valley urban area, central New England: U.S. Geological Survey Miscellaneous Investigations Series Map I-1074-B, scale 1:125,000. Wentworth, C.K. 1922, A scale of grade and class terms for clastic sediments: Journal of Geology, v. 30, p. 377-392.
Dataset credit:
Margaret Thomas of the Connecticut Geological and Natural History Survey, Department of Environmental Protection in consultation with Janet Stone, U.S. Geological Survey for Surficial Aquifer Textures and Textural Groups presented in this map. Mary DiGiacomo-Cohen (Long Island Sound Resource Center) for designing, compiling, digitizing, and editing the Surficial Materials data layer. The Long Island Sound Resource Center is a partnership between the State of Connecticut, Department of Environmental Protection and the University of Connecticut. Surficial materials digital data was produced by the State of Connecticut, Department of Environmental Protection with support from the U.S. Geological Survey, the U.S. Environmental Protection Agency, and the Connecticut Department of Public Health and Addiction Services. The U.S. Geological Survey in cooperation with the State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey drafted the 1:24,000-scale compilation sheets used to publish the 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992 and create the 1:24,000-scale digital data.
Language of dataset: en
Point Of Contact
Contact information for the individual or organization that is knowledgeable about the data.
Organization: State of Connecticut, Department of Environmental Protection
Person: Margaret Thomas
Position: Geologist
Phone: 860-424-3548
Email: margaret.thomas@ct.gov
Hours of service: Monday to Friday, 08:30 to 16:30 Eastern Standard Time
Address type: mailing and physical address
Address:
70 Elm Street
City: Hartford
State or Province: Connecticut
Postal code: 06106-5127
Country: USA
Data Type
How the data are represented, formatted and maintained by the data producing organization.
File or table name: depgis.DEP.SURFICIAL_AQUIFER_TEXTURE
Data type: vector digital data
Data format: SDE Feature Class
Native dataset environment: These data are maintained by the State of Connecticut using ArcGIS software developed by Environmental Systems Research Institute (ESRI) in a Microsoft Windows operating system environment.
Time Period of Data
Time period(s) for which the data corresponds to the currentness reference.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Status
The state of and maintenance information for the data.
Data status: Complete
Update frequency: None planned
Key Words
Words or phrases that summarize certain aspects of the data.
Theme:
Keywords: geology, surficial, glacial, post-glacial, unconsolidated materials, texture, grainsize, meltwater deposition, morphosequence, stratified drift, till, quaternary, aquifer
Keyword thesaurus: None
Theme:
Keywords: geoscientificInformation
Keyword thesaurus: ISO 19115 Topic Category
Place:
Keywords: Connecticut, CT
Keyword thesaurus: U.S. Department of Commerce, 1987, Codes for the Identification of the States, the District of Columbia and the Outlying Areas of The United States, and Associated Areas (Federal Information Processing Standard 5-2): Washington, DC, National Institute of Standards and Technology.
Place:
Keywords: United States of America, USA
Keyword thesaurus: U.S. Department of Commerce, 1995, Countries, Dependencies, Areas of Special Sovereignty, and Their Principal Administrative Divisions (Federal Information Processing Standard (FIPS) 10-4): Washington, D.C., National Institute of Standards and Technology.
Stratum:
Keywords: glacial, post-glacial, Quaternary, Holocene, Pleistocene
Keyword thesaurus: None
Data Access Constraints
Restrictions and legal prerequisites for accessing or using the data after access is granted.
Access constraints:
None. The data is in the public domain and may be redistributed.
Use constraints:
No restrictions or legal prerequisites for using the data. The data is suitable for use at appropriate scale, and is not recommended for use with other data layers having source map scales greater than 1:24,000 (1 inch = 2000 feet) or printed on maps at scales greater or more detailed than 1:24,000 scale (1 inch = 2,000 feet). The geologic contacts are considered accurate as mapped at 1:24,000 scale. While it may be desirable to represent the geology at a larger scale for site-specific applications, keep in mind that 1:24,000-scale accuracy may not be appropriate for such uses. 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 U.S. Geological Survey or 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 is distributed to the user, modifications made to the data by the user should be noted in the metadata. When printing this data on a map or using it in a software application, analysis, or report, please acknowledge the U.S. Geological Survey and the State of Connecticut, Geological and Natural History Survey, 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: Aquifer Texture - From the Surficial Aquifer Texture layer, compiled and published by the USGS and CT Geological and Natural History Survey, DEP. Source map scale is 1:24,000.
+ Graphic Example
Browse Graphic
Graphic illustration of the data.
Browse graphic 1
Open - Full view of Connecticut Surficial Aquifer Texture
Graphic Image

Browse graphic 2
Open - Detail view of Connecticut Surficial Aquifer Texture at 1:50,000 scale.
Graphic Image
+ Spatial Reference Information
Horizontal Coordinate System
Reference system from which linear or angular quantities are measured and assigned to the position that a point occupies.
Projected coordinate system:
Name: NAD 1983 StatePlane Connecticut FIPS 0600 Feet
Map units: survey feet
Geographic coordinate system:
Name: GCS North American 1983
Coordinate System Details
Map projection
Map projection name: Lambert Conformal Conic
Standard parallel: 41.200000
Standard parallel: 41.866667
Longitude of central meridian: -72.750000
Latitude of projection origin: 40.833333
False easting: 999999.999996
False northing: 499999.999998
Planar Coordinate Information
Planar coordinate encoding method: coordinate pair
Coordinate representation:
Abscissa resolution: 0.000250
Ordinate resolution: 0.000250
Planar distance units: survey feet
Geodetic model
Horizontal datum name: North American Datum of 1983
Ellipsoid name: Geodetic Reference System 80
Semi-major axis: 6378137.000000
Denominator of flattening ratio: 298.257222
Vertical Coordinate System
Reference system from which vertical distances (altitudes or depths) are measured.
Altitude system definition:
Altitude resolution: 1.000000
Altitude encoding method: Explicit elevation coordinate included with horizontal coordinates
Spatial Domain
The geographic areal domain of the data that describes the western, eastern, northern, and southern geographic limits of data coverage.
Bounding Coordinates
In Projected or local coordinates
NAD 1983 StatePlane Connecticut FIPS 0600 Feet
BoundaryCoordinate
Left730512.250000 (survey feet)
Right1263094.500000 (survey feet)
Top944279.188000 (survey feet)
Bottom554854.688000 (survey feet)
In Unprojected coordinates (geographic)
GCS North American 1983
BoundaryCoordinate
West-73.742172 (longitude)
East-71.781364 (longitude)
North42.052612 (latitude)
South40.979708 (latitude)
+ Data Structure and Attribute Information
Overview
Summary of the information content of the data, including other references to complete descriptions of entity types, attributes, and attribute values for the data.
Entity and attribute overview:
Aquifer texture represents a classification of surficial material grain size into 10 general categories for use in ground water applications. The aquifer texture attribute (TEXTURE) includes: fine, coarse, fine overlying coarse, and coarse overlying fine grained deposits, as well as artificial fill, beach, salt marsh, swamp, and water. Aquifer texture group (TEXTUREGRP) includes areas of fine grained , fine overlying coarse grained, coarse grained, and coarse overlying fine grained deposits. Surficial materials not included in the surficial aquifer texture groups include till, artificial fill, beach, salt marsh, swamp, and water. All textural terms follow the grain size classification of Stone et al 1992, modified from Wentworth, 1922. The surficial aquifer texture classifications are suitable for use at 1:24,000 scale.
The underlying SMPOLY_COD attribute identifies individual surficial material units that make up the TEXUTRE, and TEXTUREGRP classifications. The SMPOLY_COD, SURFM_POLY and DESCRIP attributes and polygon features in Surficial Aquifer Texture originated from and are identical to the 1:24,000-scale Connecticut Surficial Materials polygon feature data.
Entity and attribute detailed citation:
Surficial Materials Map of Connecticut (Stone, J.R., Schafer, J.P., London, E.H. and Thompson, W.B., 1992, U.S. Geological Survey special map, 2 sheets, scale 1:125,000). 
Direct spatial reference method: Vector
Indirect spatial reference method: State of Connecticut, United States of America
Attributes of Connecticut Surficial Aquifer Texture
Detailed descriptions of entity type, attributes, and attribute values for the data.
Name: depgis.DEP.SURFICIAL_AQUIFER_TEXTURE
Type of object: Feature Class
Geometry type: Polygon
Number of records: 12849
Description:
Surficial Material polygon features classified in terms of aquifer texture (grain size).
Source:
U.S. Geological Survey and State of Connecticut, Geological and Natural History Survey, Department of Environmental Protection
Attributes
OBJECTID
Definition:
Internal feature number.
Alias: OBJECTID Type: OID Width: 4 Precision: 10 Scale: 0
Attribute values: Sequential unique whole numbers that are automatically generated.
Attribute definition source:
ESRI
TEXTURE
Definition:
Surficial Aquifer Texture - A field used to classify and symbolize surficial material polygon features into categories that describe the texture of surficial aquifers for ground water applications. This attribute condenses the 50 surficial materials map units (SMPOLY_COD values) into 10 textural categories of deposits (artificial fill, beach, coarse, coarse overlying fine, fine, fine overlying coarse, salt marsh, swamp, till and water).
Alias: TEXTURE Type: String Width: 40 Precision: 0 Scale: 0
Attribute domain values
ValueDefinition
Artificial Fill
This category includes SMPOLY_COD value of AF.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Beach
This category includes SMPOLY_COD value of B.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Coarse
This category includes SMPOLY_COD values of A/S, A/S/SG, A/SG, A/SG/S, G, G/SG, G/SG/S, G/S, S, S/G, S/SG, SG, SG/S, SG/S/SG, SW/S, SW/S/SG, and SW/SG.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Coarse overlying Fine
This category includes SMPOLY_COD values of A/S/F, A/SG/F, A/SG/S/F, G/F, G/S/F, S/F, SG/F, SG/S/F, SM/S/F, and SW/S/F.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Fine
This category includes SMPOLY_COD values of A/F, F, SM/F and SW/F.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Fine Overlying Coarse
This category includes SMPOLY_COD values of A/F/G, A/F/S, A/F/SG, F/G, F/S, F/SG, S/F/SG, SG/F/SG, and SW/F/S.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Salt Marsh
This category includes SMPOLY_COD value SM.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Swamp
This category includes SMPOLY_COD value SW.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Till
This category includes SMPOLY_COD values A, T, TA, TS, and TT.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Water
This category includes SMPOLY_COD value W.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Attribute definition source:
U.S. Geological Survey and State of Connecticut, Geological and Natural History Survey, Department of Environmental Protection
TEXTUREGRP
Definition:
Surficial Aquifer Texture Group - A field used to classify and symbolize surficial material polygon features into broad textural categories of surficial aquifers for ground water applications. This attribute condenses the 50 surficial materials map units (SMPOLY_COD values) into 5 textural categories of deposits (coarse, coarse overlying fine, fine, fine overlying coarse, and not surficial aquifer).
Alias: TEXTUREGRP Type: String Width: 40 Precision: 0 Scale: 0
Attribute domain values
ValueDefinition
Coarse
This category includes SMPOLY_COD values of A/S, A/S/SG, A/SG, A/SG/S, G, G/SG, G/SG/S, G/S, S, S/G, S/SG, SG, SG/S, SG/S/SG, SW/S, SW/S/SG, and SW/SG.
Coarse overlying Fine
This category includes SMPOLY_COD values of A/S/F, A/SG/F, A/SG/S/F, G/F, G/S/F, S/F, SG/F, SG/S/F, SM/S/F, and SW/S/F.
Fine
This category includes SMPOLY_COD values of A/F, F, SM/F and SW/F.
Fine overlying Coarse
This category includes SMPOLY_COD values of A/F/G, A/F/S, A/F/SG, F/G, F/S, F/SG, S/F/SG, SG/F/SG, and SW/F/S.
Not Surficial Aquifer
This category includes SMPOLY_COD values of A, AF, B, SM, SW, T, TA, TS, TT, and W.
Attribute definition source:
U.S. Geological Survey and State of Connecticut, Geological and Natural History Survey, Department of Environmental Protection
STRATDRIFT
Definition:
Stratified Drift - Classifies surficial material polygon features into fine and course grain stratified drift deposits. This attribute condenses the 50 surficial materials map units (SMPOLY_COD values) into 3 textural categories of deposits (coarse grain stratified drift, fine grain stratified drift, and not stratified drift).
Alias: STRATDRIFT Type: String Width: 40 Precision: 0 Scale: 0
Attribute domain values
ValueDefinition
Coarse Grain Stratified Drift
This category includes SMPOLY_COD values of A/F/G, A/F/S, A/F/SG, A/S, A/S/SG, A/SG, A/SG/S, F/G, F/S, F/SG, G, G/S, G/SG, G/SG/S, S, S/F/SG, S/G, S/SG, SG, SG/F/SG, SG/S, SG/S/SG, SW/F/S, SW/S, SW/S/SG, and SW/SG
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Fine Grain Stratified Drift
This category includes SMPOLY_COD values of A/F, A/S/F, A/SG/F, A/SG/S/F, F, G/F, G/S/F, SG/F, SG/S/F, SM/F, SM/S/F, S/F, SW/F, and SW/S/F.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Not Stratified Drift
This category includes SMPOLY_COD values of A, AF, B, SW, SM, T, TA, TS, TT, and W.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Attribute definition source:
U.S. Geological Survey and State of Connecticut, Geological and Natural History Survey, Department of Environmental Protection
SMPOLY_COD
Definition:
Surficial Materials Polygon Code - A key field used to classify surficial materials units. Attribute values are mostly single characters in length, except for stacked map units that include forward slashes (/) between the different textural types such as A/F, A/F/G, and A/F/SG.
Alias: SMPOLY_COD Type: String Width: 8 Precision: 0 Scale: 0Output width: 8
Attribute domain values
ValueDefinition
A
Floodplain Alluvium - Sand, gravel, silt, and some organic material, on the floodplains of modern streams. The texture of alluvium commonly varies over short distances both laterally and vertically, and is often similar to the texture of adjacent glacial deposits. Along smaller streams, alluvium is commonly less than 5 ft thick. The most extensive deposit of alluvium on the map is along the Connecticut River where the texture is predominantly fine to very fine sand and silt; here and along other larger rivers, it may be as much as 25 ft thick. Alluvium typically overlies thicker glacial stratified deposits, the general texture of which is indicated by the stacked unit.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/F
Alluvium overlying Fines
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/F/G
Alluvium overlying Fines overlying Gravel
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/F/S
Alluvium overlying Fines overlying Sand
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/F/SG
Alluvium overlying undifferentiated Fine deposits overlying coarse deposits (Sand and Gravel)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/S
Alluvium overlying Sand
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/S/F
Alluvium overlying Sand overlying Fines
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/S/SG
Alluvium overlying Sand overlying Sand and Gravel
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/SG
Alluvium overlying undifferentiated coarse deposits (Sand and Gravel)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/SG/F
Alluvium overlying undifferentiated coarse deposits (Sand and Gravel) overlying Fine deposits
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/SG/S
Alluvium overlying Sand and Gravel overlying Sand
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
A/SG/S/F
Alluvium overlying Sand and Gravel overlying Sand overlying Fines
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
AF
Artificial Fill - Earth materials and manmade materials that have been artificially emplaced. Artificial fill is common throughout the map area but has been shown on this map only where extensive areas of 'made land' occur, principally along the coast.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
B
Beach deposits - Sand and and gravel deposited along the shoreline by waves and currents and by wind action. The texture of beach deposits varies over short distances and is generally controlled by the texture of nearby glacial materials exposed to wave action. Beach deposits are generally well sorted and rarely more than a few feet thick. Many sand beaches along the Connecticut coast have been 'restored'; these have not been distinguished from natural beaches on this map; however, extensive beaches that consist totally of 'made-land' are mapped as artificial fill.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
F
Fines (very fine sand, silt, and clay) - Composed of well-sorted, thin layers of alternating silt and clay, or thicker layers of very fine sand and silt. Very fine sand commonly occurs at the surface and grades downward into rhythmically bedded silt and clay varves (lake-bottom deposits)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
F/G
Fines overlying Gravel
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
F/S
Fines overlying Sand-- Fines of variable thickness, commonly in thinly bedded layers overlie sand of variable thickness (distal lake-bottom deposits overlying slightly older more delta-proximal lacustrine sediment)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
F/SG
Fines overlying Sand and Gravel - Fines of variable thickness, commonly in thinly bedded layers overlie sand and gravel of ariable thickness (lake-bottom deposits overlying slightly older collapsed proximal fluvial or deltaic deposits); in a few places sand or sand and gravel, generally less than 25 ft thick occurs on top of the F/SG unit and is indicated as S/F/SG and SG/F/SG on the map, respectively
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
G
Gravel - Composed mainly of gravel-sized particles; cobbles and boulders predominate; minor amounts of sand within gravel beds, and sand comprises few separate layers. Gravel layers generally are poorly sorted and bedding commonly is distorted and faulted due to postdepositional collapse related to melting of ice. Gravel deposits are shown only where observed in the field; additional gravel deposits may be expected, principally in areas mapped as unit SG (proximal fluvial deposits or delta-topset beds)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
G/F
Gravel overlying Fines - Gravel is generally less than 20 ft thick, horizontally bedded and overlies thicker thinly bedded fines (proximal fluvial deposits overlying lake-bottom sediments)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
G/S
Gravel overlying Sand-- Gravel is generally less than 20 ft thick, horizontally bedded, and overlies thicker, inclined layers of sand (proximal deltaic deposits)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
G/S/F
Gravel overlying Sand overlying Fines - Gravel is generally less than 20 ft thick, horizontally bedded and overlies thicker inclined beds of sand which in turn overlie fines of variable thickness (proximal deltaic deposits overlying lake-bottom sediments)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
G/SG
Gravel overlying Sand and Gravel - Gravel is generally less than 20 ft thick, horizontally bedded, and overlies thicker, inclined layers of sand and gravel (proximal deltaic deposits) 
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
G/SG/S
Gravel overlying Sand and Gravel overlying Sand
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
S
Sand - Composed mainly of very coarse to fine sand, commonly in well-sorted layers. Coarser layers may contain up to 25 percent gravel particles, generally granules and  pebbles; finer layers may contain some very fine sand, silt, and clay (delta-foreset beds, very distal fluvial deposits, or windblown sediment)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
S/F
Sand overlying Fines - Sand is of variable thickness, commonly in inclined foreset beds and overlies thinly bedded fines of variable thickness (distal deltaic deposits overlying lake-bottom sediment)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
S/F/SG
Sand overlying Fines overlying Sand and Gravel
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
S/G
Sand overlying Gravel - Sand of variable thickness overlies gravel of variable thickness (younger distal deltaic or fluvial sediments overlying older, more proximal fluvial or deltaic sediments)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
S/SG
Sand overlying Sand and Gravel - Sand of variable thickness overlies sand and gravel of variable thickness (distal deltaic or fluvial sediments overlying slightly older proximal fluvial or deltaic sediments)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SG
Sand and gravel - Composed of mixtures of gravel and sand within individual layers and as alternating layers. Sand and gravel layers generally range from 25 to 50 percent gravel particles and from 50 to 75 percent sand particles. Layers are well to poorly sorted; bedding may be distorted and faulted due to postdepositional collapse. It is likely that some deposits within this map unit actually are gravel or sand and gravel overlying sand. It is less likely that some of these deposits are sand (fluvial deposits or delta-topset beds)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SG/F
Sand and Gravel overlying Fines - Sand and gravel is generally less than 20 ft thick, horizontally bedded and overlies thicker thinly bedded fines (fluvial meltwater terrace deposits overlying lake-bottom sediment)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SG/F/SG
Sand and Gravel overlying Fines overlying Sand and Gravel
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SG/S
Sand and Gravel overlying Sand - Sand and gravel is generally less that 20 ft thick, horizontally bedded, and overlies thicker, inclined layers of sand (deltaic deposits)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SG/S/F
Sand and Gravel overlying Sand overlying Fines - Sand and gravel is generally less than 20 ft thick, horizontally bedded and overlies thicker inclined beds of sand which in turn overlie thinly bedded fines of variable thickness (deltaic deposits overlying lake-bottom sediment)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SG/S/SG
Sand and Gravel overlying Sand overlying Sand and Gravel - Sand and gravel is generally less than 20 ft thick, horizontally bedded, and overlies thicker inclined layers of sand; thickness of sand and gravel at the base of the section is variable (deltaic deposits overlying slightly older, more proximal deposits)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SM
Salt-marsh and tidal-marsh deposits - Peat and muck interbedded with sand and silt, deposited in environments of low wave energy along the coast and in river estuaries. Marsh deposits are dominantly peat and muck, generally a few feet to 35 ft thick. In the major estuaries marsh deposits may overlie estuarine deposits which are sand and silt with minor organic material as much as 40 - 90 ft thick. These deposits are generally underlain by the glacial material shown adjacent on the map; either till or sand and gravel. Where they are known or inferred to be underlain by sand or fines, they are shown on the map by stacked units.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SM/F
Salt-marsh and tidal-marsh deposits overlying Fines
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SM/S/F
Salt-marsh and tidal-marsh deposits overlying Sand overlying Fines
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SW
Swamp deposits - Muck and peat that contain minor amounts of sand, silt, and clay, accumulated in poorly drained areas. Most swamp deposits are less than about 10 ft thick. Swamp deposits are underlain by glacial deposits or bedrock. They are often underlain by glacial till even where they occur within glacial meltwater deposits. Where swamp deposits are known or inferred to be underlain by sand and/or fines, they are shown on the map by the stacked unit.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SW/F
Swamp deposits overlying Fines
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SW/F/S
Swamp deposits overlying Fines overlying Sand
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SW/S
Swamp deposits overlying Sand
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SW/S/F
Swamp deposits overlying Sand overlying Fines
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SW/S/SG
Swamp deposits overlying Sand overlying undifferentiated coarse deposits (Sand and Gravel)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SW/SG
Swamp deposits overlying undifferentiated coarse deposits (Sand and Gravel)
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
T
Thin Till - areas where till is generally less than 10-15 ft thick and including areas of bedrock outcrop where till is absent. Predominantly upper till; loose to moderately compact, generally sandy, commonly stony. Two facies are present in some places; a looser, coarser-grained ablation facies, melted out from supraglacial position; and a more compact finer-grained lodgement facies deposited subglacially. In general, both facies of upper till derived from the red Mesozoic sedimentary rocks of  the central lowland of Connecticut are finer-grained, more compact, less stony and have fewer surface boulders than upper till derived from crystalline rocks of the eastern and western highlands.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
TA
Talus - Loose, angular blocks (mostly boulders) accumulated by rockfall at the bases of steep bedrock cliffs. Talus forms steep unstable slopes and is generally less than 10 ft thick. It occurs most extensively along the linear basalt and diabase ridges within the central lowland.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
TS
Sandy Till, Sand and Gravel, some areas of dense surface bolders (End moraine deposits) - Composed predominantly of ablation facies sandy upper till; lenses of stratified sand and gravel occur locally within the till. Surface boulders on end moraine deposits are generally more numerous than on adjacent till surfaces; dense concentrations of boulders are present in some places. Deposits occur as free-standing hummocky landforms, commonly in elongate ridges that trend NNE - SSW, and range in thickness from 10 to 60 ft.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
TT
Thick Till - areas where till is greater than 10-15 ft thick and including drumlins in which till thickness commonly exceeds 100 ft (maximum recorded thickness is about 200 ft). Although upper till is the surface deposit, the lower till constitutes the bulk of the material in these areas. Lower till is moderately to very compact, and is commonly finer-grained and less stony than upper till. An oxidized zone, the lower part of a soil profile formed during a period of interglacial weathering, is generally present in the upper part of the lower till. This zone commonly shows closely-spaced joints that are stained with iron and manganese oxides.
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
W
Water - Defined as streams, lakes, ponds, bays, and estuaries greater than 5 acres in size. Surficial Material water polygon features are outlined by Surficial Material line features with a SMARC_COD attribute value of 2 (for Hydrography Shoreline).
Definition Source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
Attribute definition source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SURFM_POLY
Definition:
Surficial Materials - The SURFM_POLY attribute includes longer text values for the mostly single-character values stored in the SMPOLY_COD field. SURFM_POLY is the English language equivalent of (decodes) the SMPOLY_COD field. For example, SMPOLY_COD and SURFM_POLY attribute values for the same polygon feature are G and Gravel, respectively. SURFM_POLY attribute values for stacked map units include forward slashes (/) between the different textural types such as Aluv/Fines, Aluv/Fines/Gravel, and Alluv/Fines/Sand+Gravel. 
Alias: SURFM_POLY Type: String Width: 35 Precision: 0 Scale: 0Output width: 35
Attribute values: See Enumerated Domain Value Definitions for SMPOLY_COD attribute. Examples include Alluv, Aluv/Fines, Aluv/Fines/Gravel, and Alluv/Fines/Sand+Gravel.
Attribute definition source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
DESCRIP
Definition:
Surficial Materials Description - Based on the SMPOLY_COD attribute, a longer decoded description of the map unit than that provided by the SURFM_POLY attribute. For example, SMPOLY_COD, SURFM_POLY, and DESCRIP attribute values for the same polygon feature are A/S, Aluv/Sand, and Aluvium overlying Sand, respectively.
Alias: DESCRIP Type: String Width: 65 Precision: 0 Scale: 0Output width: 65
Attribute values: Examples include Alluvium, Alluvium overlying Fines, Alluvium overlying Fines overlying Gravel, and Alluvium overlying Fines overlying Sand and Gravel.
Attribute definition source:
U.S. Geological Survey and State of Connecticut, Department of Environmental Protection
SHAPE
Definition:
Feature geometry.
Alias: SHAPE Type: Geometry Width: 4 Precision: 0 Scale: 0
Attribute values: Coordinates defining the features.
Attribute definition source:
ESRI
SHAPE.area
Alias: SHAPE.area Type: Double Width: 0 Precision: 0 Scale: 0
SHAPE.len
Alias: SHAPE.len Type: Double Width: 0 Precision: 0 Scale: 0
ESRI Feature Description
Description of spatial objects in the data using the Environmental Systems Research Institute (ESRI) terminology.
Environmental Systems Research Institute (ESRI) terms
depgis.DEP.SURFICIAL_AQUIFER_TEXTURE
ESRI feature type: Simple
Geometry type: Polygon
Topology: FALSE
Feature count: 12849
Spatial index: TRUE
Linear referencing: FALSE
SDTS Feature Description
Description of point and vector spatial objects in the data using the Spatial Data Transfer Standards (SDTS) terminology.
Spatial data transfer standard (SDTS) terms
depgis.DEP.SURFICIAL_AQUIFER_TEXTURE
Type: G-polygon
Count: 12849
+ Data Quality and Accuracy Information
General
Information about the fidelity of relationships, data quality and accuracy tests, omissions, selection criteria, generalization, and definitions used to derive the data.
Logical consistency report:
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 State of Connecticut 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 4 feet (fuzzy tolerance) and a minimum allowed overshoot length of 0 feet (dangle length).
Completeness report:
The data reflects the content of the data source, which is a set of 1:24,000 scale mylar sheets used to compile and publish the Surficial Material Map of Connecticut, Stone and others, 1992 (U.S. Geological Survey in cooperation with the Connecticut Geological and Natural History Survey, DEP, 2 sheets, 1:125,000 publication scale). The Surficial Materials datalayer was digitized from these 1:24,000-scale mylar compilation sheets. This data is not updated.
Attribute Accuracy
Accuracy of the identification of data entities, features and assignment of attribute values.
Attribute accuracy report:
The Connecticut Surficial Aquifer Texture data retains the underlying surficial material polygon feature and attribute information of the 1:24,000-scale Connecticut Surficial Materials layer, which retains the feature types and information identified on the 1:24,000-scale compilation sheets for the Surficial Materials Map of Connecticut, Stone and others, 1992. All attributes have valid values. Values are within defined domains. The accuracy test for the SMPOLY_COD attribute values was conducted by comparing the geologic map unit information presented on the source mylar overlays with 1:24,000-scale check plots or interactive displays of the digital data on a computer graphic system. These check plot maps and computer displays depicted and labeled the surficial material polygon features in different colors and line-fill patterns based on SMPOLY_COD attribute values for comparison with the original data source. SURFM_POLY and DESCRIP represent both brief and full text English language equivalents of (decodes) the SMPOLY_COD attribute, respectively. The TEXTURE, TEXTURE_GRP and STRAT_DRIFT that classify the SMPOLY_COD values into various texture categories and were populated by joining the Surficial_Aquifer_Texture_Data lookup data table to the polygon features using SMPOLY_COD as the relate key field instead of manually entering these values for each polygon feature. The Surficial_Aquifer_Texture_Data lookup table accounts for all 50 values of SMPOLY_COD, assigning each value a corresponding TEXTURE, TEXTURE_GRP and STRAT_DRIFT value.
Positional Accuracy
Accuracy of the positional aspects of the data.
Horizontal accuracy report:
The horizontal positional accuracy of this data complies with the United States National Map Accuracy Standards for 1:24,000 scale maps. According to this standard, not more than 10 percent of the locations tested are to be in error by more than 1/50 inch (40 feet) measured on the publication scale of a USGS 7.5 minute topographic quadrangle map. Feature locations were interpolated from the transporation features, surface water features, elevation contours, buildings,  built-up areas, and other natural features and landforms depicted on USGS 7.5 minute topographic quadrangle maps.
+ Data Source and Process Information
Data Sources
Information about the source data used to construct or derive the data.
Data source information
Source 1 - Source Materials
Title: Compilation Sheets
Originators: State of Connecticut, Department of Environmental Protection
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: Unpublished Material
Data type: stable base mylar
Map scale denominator: 24000
Media: mylar
Source contribution:
Includes the 1:24,000-scale mylar overlay compilation sheets used to publish the Surficial Materials Map of Connecticut, Stone and others, 1992. Compilation sheets based on published and unpublished 1:24,000-scale surficial geologic maps available to the compiler. Depending on the 7.5 minute quadrangle, data sources include Connecticut Geological and Natural History Survey Quadrangle Report (QR), U.S. Geological Survey Geologic Quadrangle Map (GQ), U.S. Geological Survey Miscellaneous Field Studies Map (MF), U.S. Geological Survey Miscellaneous Geologic Investigation Map, U.S. Geological Survey Open-File Report, U.S. Geological Survey Open-File Map, University of Connecticut thesis, or unpublished data. For a complete list of data sources by 7.5 minute quadrangle, refer to Sheet 2 of the Surficial Materials Map of Connecticut, Stone and others, 1992. Topographic bases used in the original geologic compilation from USGS 1:24,000 scale revisions 1952-1970.
Date: 2009
Currentness reference:
Publication date of the Surficial Aquifer Texture data table
Source 2 - SURFMAT
Title: Connecticut Surficial Materials Layer
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Surficial Materials is in ArcInfo Coverage format having both polygon and line features. The name of the ArcInfo Coverage is SURFMAT.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Source 3 - Surficial_Materials_Poly.shp
Title: Connecticut Surficial Materials Polygon
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Includes all polygon features from Source 2 - Surficial Materials (ArcInfo Coverage format). Surficial_Materials_Poly.shp is in Shapefile format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Source 4 - Surficial_Materials_Poly
Title: Connecticut Surficial Materials Polygon
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Surficial_Materials_Poly is in GeoDatabase Feature Class format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Source 5 - Surficial_Aquifer_Texture_Data
Title: Connecticut Surficial Aquifer Texture attributes
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 20090114
Data type: tabular digital data
Data location: http://www.ct.gov/deep
Media: disc
Source contribution:
Surficial_Aquifer_Texture_Data is in GeoDatabase data table format. The TEXTURE, TEXTURE_GRP and STRAT_DRIFT attributes in this table classify the SMPOLY_COD values into various categories. The corresponding surficial material polygon features were populated by joining the Surficial_Aquifer_Texture_Data lookup data table to the polygon features using SMPOLY_COD as the relate key field instead of manually entering these values for each polygon feature. The Surficial_Aquifer_Texture_Data lookup table accounts for all 50 values of SMPOLY_COD, assigning each value a corresponding TEXTURE, TEXTURE_GRP and STRAT_DRIFT value.
Date: 2009
Currentness reference:
Publication date of the data table
Source 6 - Surficial_Aquifer_Texture
Title: Connecticut Surficial Aquifer Texture
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 20090114
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disk
Source contribution:
Surficial_Aquifer_Texture is in GeoDatabase Feature Class format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Process Steps
Information about events, parameters, tolerances and techniques applied to construct or derive the data.
Process step information
Process Step 1
Process description:
Feature digitizing (digitizing tablet method) - Using ESRI ArcInfo software, features were digitized by registering each source Mylar to the digitizing tablet and using the crosshairs of the digitizer's mouse to manually capture the geometry (location) of features drafted on the map. The corners of the USGS 7.5 minute topographic quadrangle maps are used as registration points and are depicted on the source map. Each source map was registered to the digitizing tablet by digitizing (entering) the locations of four quadrangle corner registration points shown on the map. ArcInfo software compared the values of the digitized coordinates with the actual (true) values for the quadrangle corner (tic) features. The Root Mean Square (RMS) error generated by the ArcInfo software indicated the amount of error involved in transforming coordinates from the registered map to the digital layer. RMS errors higher than 0.004 were not acceptable and required re-registering the source map by digitizing the tic locations again. Surficial material boundary lines (contacts) delineated on each source map were manually digitized according to the following spatial data accuracy standards: Standards for feature accuracy are: 90 percent of the digitized (linear) features are within .01 inch of their centerline on the original manuscript (source map); all digitize (linear) features are within .02 inch of their centerline on the original manuscript. Polygon features were created as a result of digitizing these (boundary) line features. The source maps are made from stable-base mylar.

Selected waterbodies greater than 5 acres and related shoreline features were incorporated from existing digital hydrography data.  Digital compilation utilized hydrography from 7.5 minute, 1:24,000-scale U.S. Geological Survey Digital Line Graph source material (1969-1984) with minor modification of geologic contacts to fit the revised hydrography where necessary. Hydrography selected from the USGS Digital Line Graph data (code numbers 050 0412,050 0421, and 050 0116) include streams, lakes, ponds, bays, estuaries, and seas with areas greater than 5 acres.

In general, units shown on the 1:24,000-scale compilation sheets are typically those published on the 1:125,000-scale Surficial Materials Map of Connecticut. Additional map units may be present in the digital data that could not be readily shown on the published map at 1:125,000 scale or that represent more recent mapping, particularly along the coast. Some subsurface information as noted by stacked units may also be more detailed in the 1:24,000-scale digital data than that of the published 1:125,000-scale State Map.

Attribution - Each polygon feature was manually assigned the corresponding SMPOLY_COD attribute, indicating the geologic unit type based on information the compilation sheets. Additionally, line features were manually attributed with SMARC_COD values to distinguish geologic contacts from shoreline and the state boundary. Where necessary, additional minor corrections (edits) to feature geometry were manually digitized on the screen (heads-up digitizing) at display scales greater than 1:24,000. Feature location and attribute accuracy was visually checked and inspected by symbolizing and labeling features according to attribute value on the computer screen and on hard copy paper maps, and comparing this information to the original source data. These check plot maps were printed at the same scale as the source maps in order to visually inspect digitizing quality and the assignment of attribute values.

Edgematching - Features along the boundaries of adjacent 7.5-minute quadrangle coverages were made to match (connect) to each other through a process of checkerboard style edgematching. Following a checkerboard pattern, line features were only adjusted on every other quadrangle. The edgmatching process resulted in defining the same point coordinate where line features from two adjacent quadrangles connect along quadrangle boundaries. Essentially, line end points were snapped to connect to line end points of the corresponding stationary linear features on adjacent quadrangles. Edge matching was successfully completed once it was possible to append all 7.5-minute quadrangle coverages and assemble a statewide coverage with polygons that closed without gaps (slivers) and overlaps.

Appending - Subsequently, all 7.5-minute quadrangle coverages were appended to form a single, statewide Surficial Materials layer. Polygon features were merged across quadrangle boundaries. Linear features were unsplit (merged) to eliminate unnecessary pseudo nodes that connected similar line features (originally from different quadrangle coverages). Final polygon and line feature topology was established with ArcInfo Fuzzy and Dangle tolerances verified at 4 and 0 feet, respectively. Lookup tables were joined to the polygon and feature attribute to include additional attributes that decoded the SMPOLY_COD and SMARC_COD attributes such as SURFM_POLY, SURFM_ARC, DESCRIP, and IMS_LEGEND. The AREA_SQMI (area in square miles) and ACREAGE (area in acres) field were automatically calculated for each polygon feature based on computer generated feature area in square feet. At this step in the process the Surficial Materials layer was fully attributed and ready for use. The name of the resulting data in ArcInfo Coverage format was SURFMAT.
Organization: Long Island Sound Resource Center, a partnership between the State of Connecticut, Department of Environmental Protection and the University of Connecticut
Person: Mary DiGiacomo-Cohen
Phone: 860 405-9015
Email: lisrc@uconn.edu
Address type: mailing and physical address
Address:
Long Island Sound Resource Center
Address:
UConn Avery Point
Address:
1080 Shennecossett Rd
City: Groton
State or Province: Connecticut
Postal code: 06340
Country: USA
Process date: 1995
Process software and version: ArcInfo 7
Data Source used
Source 1 - Source Materials
Title: Compilation Sheets
Originators: State of Connecticut, Department of Environmental Protection
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: Unpublished Material
Data type: stable base mylar
Map scale denominator: 24000
Media: mylar
Source contribution:
Includes the 1:24,000-scale mylar overlay compilation sheets used to publish the Surficial Materials Map of Connecticut, Stone and others, 1992. Compilation sheets based on published and unpublished 1:24,000-scale surficial geologic maps available to the compiler. Depending on the 7.5 minute quadrangle, data sources include Connecticut Geological and Natural History Survey Quadrangle Report (QR), U.S. Geological Survey Geologic Quadrangle Map (GQ), U.S. Geological Survey Miscellaneous Field Studies Map (MF), U.S. Geological Survey Miscellaneous Geologic Investigation Map, U.S. Geological Survey Open-File Report, U.S. Geological Survey Open-File Map, University of Connecticut thesis, or unpublished data. For a complete list of data sources by 7.5 minute quadrangle, refer to Sheet 2 of the Surficial Materials Map of Connecticut, Stone and others, 1992. Topographic bases used in the original geologic compilation from USGS 1:24,000 scale revisions 1952-1970.
Date: 2009
Currentness reference:
Publication date of the Surficial Aquifer Texture data table
Data Source produced
Source 2 - SURFMAT
Title: Connecticut Surficial Materials Layer
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Surficial Materials is in ArcInfo Coverage format having both polygon and line features. The name of the ArcInfo Coverage is SURFMAT.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Process Step 2
Process description:
Export to Shapefile Format - Converted polygon feature data from ArcInfo Coverage named SURFMAT to a Shapefile named Surficial_Materials_Poly.shp. Excluded the AREA, PERIMETER, SURFMAT#, SURFMAT-ID attributes from the Shapefile because their values are only maintained by ArcInfo software with data that is in ArcInfo Coverage format.
Organization: State of Connecticut, Department of Environmental Protection
Person: Howie Sternberg
Phone: 860-424-3540
Address type: mailing and physical address
Address:
79 Elm Street
City: Hartford
State or Province: Connecticut
Postal code: 06106
Country: USA
Process date: 20060112
Process software and version: ArcView 3.3
Data Source used
Source 2 - SURFMAT
Title: Connecticut Surficial Materials Layer
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Surficial Materials is in ArcInfo Coverage format having both polygon and line features. The name of the ArcInfo Coverage is SURFMAT.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Data Source produced
Source 3 - Surficial_Materials_Poly.shp
Title: Connecticut Surficial Materials Polygon
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Includes all polygon features from Source 2 - Surficial Materials (ArcInfo Coverage format). Surficial_Materials_Poly.shp is in Shapefile format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Process Step 3
Process description:
Convert to GeoDatabase Feature Class format - Defined new Feature Class named Surficial_Materials_Poly; and imported the attribute definitions, loaded features and imported metadata from Surficial_Materials_Poly.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
Organization: State of Connecticut, Department of Environmental Protection
Person: Howie Sternberg
Phone: 860-424-3540
Address type: mailing and physical address
Address:
79 Elm Street
City: Hartford
State or Province: Connecticut
Postal code: 06106
Country: USA
Process date: 20061106
Process software and version: ArcGIS 9.1
Data Source used
Source 3 - Surficial_Materials_Poly.shp
Title: Connecticut Surficial Materials Polygon
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Includes all polygon features from Source 2 - Surficial Materials (ArcInfo Coverage format). Surficial_Materials_Poly.shp is in Shapefile format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Data Source produced
Source 4 - Surficial_Materials_Poly
Title: Connecticut Surficial Materials Polygon
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Surficial_Materials_Poly is in GeoDatabase Feature Class format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Process Step 4
Process description:
Create Surfical_Aquifer_Texture feature class - The Surfical_Aquifer_Texture feature class is based on an ArcSDE spatial view named Surfical_Aquifer_Texture_View that joined the Surficial_Material_Poly feature class to the Surficial_Aquifer_Texture_Data lookup table. Developed by CT DEP and USGS geologists, the Surficial_Aquifer_Texture_Data lookup table classifies the surficial material map units (SMPOLY_COD values) according to aquifer texture. Below is the command syntax used to first create the ArcSDE spatial view. Note, water polyon features were excluded from the view.

sdetable -o create_view -T SURFICIAL_AQUIFER_TEXTURE_VIEW -t SURFICIAL_MATERIAL_POLY,SURFICIAL_AQUIFER_TEXTURE_DATA -c SHAPE,TEXTURE,TEXTUREGRP,STRATDRIFT,SURFICIAL_MATERIAL_POLY.SMPOLY_COD,SURFM_POLY,DESCRIP -w "SURFICIAL_MATERIAL_POLY.SMPOLY_COD=SURFICIAL_AQUIFER_TEXTURE_DATA.SMPOLY_COD and SURFICIAL_MATERIAL_POLY.SMPOLY_COD <> 'W'" -D depgis -u xxx -p yyy

Rather than retain the spatial view in ArcSDE, CT DEP decided to replace it with an ArcSDE feature class named Surficial_Aquifer_Texture because it would result in physicaly attaching the related texture attributes to the polygon features, permanently preserving this replationship within the geodatabase. This also ensures that the metadata is permanently associated with a polygon feature class rather than spatial view that might be inadvertantly deleted from the ArcSDE database. So, the Surfical_Aquifer_Texture_View was first converted (copied) to a File Geodatabase feature class named Surficial_Aquifer_Texture and subsequently copied to a similarly named ArcSDE feature classe. The spatial view, Surfical_Aquifer_Texture_View, was deleted from the ArcSDE geodatabase and metadata was developed for the new ArcSDE feature class that replaced it.
Organization: State of Connecticut, Department of Environmental Protection
Person: Margaret Thomas, Howie Sternberg
Phone: 860-424-3540
Address type: mailing and physical address
Address:
79 Elm Street
City: Hartford
State or Province: Connecticut
Postal code: 06106
Country: USA
Process date: 20090114
Process software and version: ArcGIS 9.3
Data Source used
Source 4 - Surficial_Materials_Poly
Title: Connecticut Surficial Materials Polygon
Originators: U.S. Geological Survey (data compiler, editor and publisher)
State of Connecticut, Department of Environmental Protection, Geological and Natural History Survey (data compiler, editor and publisher)
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 19950101
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disc
Source contribution:
Surficial_Materials_Poly is in GeoDatabase Feature Class format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
Source 5 - Surficial_Aquifer_Texture_Data
Title: Connecticut Surficial Aquifer Texture attributes
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 20090114
Data type: tabular digital data
Data location: http://www.ct.gov/deep
Media: disc
Source contribution:
Surficial_Aquifer_Texture_Data is in GeoDatabase data table format. The TEXTURE, TEXTURE_GRP and STRAT_DRIFT attributes in this table classify the SMPOLY_COD values into various categories. The corresponding surficial material polygon features were populated by joining the Surficial_Aquifer_Texture_Data lookup data table to the polygon features using SMPOLY_COD as the relate key field instead of manually entering these values for each polygon feature. The Surficial_Aquifer_Texture_Data lookup table accounts for all 50 values of SMPOLY_COD, assigning each value a corresponding TEXTURE, TEXTURE_GRP and STRAT_DRIFT value.
Date: 2009
Currentness reference:
Publication date of the data table
Data Source produced
Source 6 - Surficial_Aquifer_Texture
Title: Connecticut Surficial Aquifer Texture
Publisher: State of Connecticut, Department of Environmental Protection
Publication place: Hartford, Connecticut, USA
Publication date: 20090114
Data type: vector digital data
Data location: http://www.ct.gov/deep
Map scale denominator: 24000
Media: disk
Source contribution:
Surficial_Aquifer_Texture is in GeoDatabase Feature Class format.
Date: 1992
Currentness reference:
Publication date of 1:125,000-scale Surficial Materials Map of Connecticut, Stone and others, 1992.
ESRI geoprocessing history
Description of ESRI geoprocessing commands, settings, and tolerances applied to the data.
ESRI geoprocessing command information
1 CopyFeatures_1
Date: 20090114 Time: 084618
Tool location: C:\Program Files\ArcGIS\ArcToolbox\Toolboxes\Data Management Tools.tbx\CopyFeatures
Command issued: CopyFeatures "Database Connections\10.18.8.60.depgis@dep_dc.sde\DEPGIS.DEP.SURFICIAL_AQUIFER_TEXTURE_VIEW" Y:\Archive\Geoscience\Geology_24k\geodatabase\Surficial_Derived_Products.gdb\SURFICIAL_AQUIFER_TEXTURE # 0 0 0
2 CopyFeatures_1
Date: 20090114 Time: 085034
Tool location: C:\Program Files\ArcGIS\ArcToolbox\Toolboxes\Data Management Tools.tbx\CopyFeatures
Command issued: CopyFeatures Y:\Archive\Geoscience\Geology_24k\geodatabase\Surficial_Derived_Products.gdb\SURFICIAL_AQUIFER_TEXTURE "Database Connections\10.18.8.60.depgis@dep_dc.sde\depgis.DEP.SURFICIAL_AQUIFER_TEXTURE" DEPFEATURESTATIC 0 0 0
+ Data Distribution Information
General
Description of the data known by the party from whom the data may be obtained, liability of party distributing data, and technical capabilities required to use the data.
Resource description:
Connecticut Surficial Aquifer Texture
Distribution liability:
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 is distributed to the user, modifications made to the data by the user should be noted in the metadata.
Technical prerequisites:
Geographic information sytem (GIS), computer-aided drawing or other mapping software is necessary to display, view and access the information.
Distribution Point of Contact
Contact information for the individual or organization distributing the data.
Organization: State of Connecticut, Department of Enviromental Protection
Phone: 860-424-3540
Fax: 860-424-4058
Email: dep.gisdata@ct.gov
Hours of service: Monday to Friday, 08:30 to 16:30 Eastern Standard Time
Address type: mailing and physical address
Address:
79 Elm Street
City: Hartford
State or Province: Connecticut
Postal code: 06106-5127
Country: USA
Standard Order Process
Common ways in which data may be obtained.
Digital form:
Format name: Shapefile, Feature Class
Format version number: ArcGIS
File decompression technique: Zip file
Digital transfer option:
Online option:
Computer information:
Network address:
Network resource name: http://www.ct.gov/deep
Fees: An online copy of the data may be accessed without charge.
Custom Order Process
Description of custom distribution services available.
Custom order process:
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.
+ Metadata Reference
Metadata Date
Dates associated with creating, updating and reviewing the metadata.
Last updated: 20120125
Language of metadata: en
Metadata Point of Contact
Contact information for the individual or organization responsible for the metadata information.
Organization: State of Connecticut, Department of Environmental Protection
Person: Margaret Thomas
Phone: 860-424-3548
Email: margaret.thomas@ct.gov
Hours of service: Monday to Friday, 08:30 to 16:30 Eastern Standard Time
Address type: mailing and physical address
Address:
79 Elm Street
City: Hartford
State or Province: Connecticut
Postal code: 06106
Country: USA
Metadata Standards
Description of the metadata standard used to document the data and reference to any additional extended profiles to the standard used by the metadata producer.
Standard name: FGDC Content Standards for Digital Geospatial Metadata
Standard version: FGDC-STD-001-1998
Time convention: local time
Metadata profiles defining additonal information:
Profile: ESRI Metadata Profile
FGDC Plus Metadata Stylesheet
Stylesheet: FGDC Plus Stylesheet
File name: FGDC Plus.xsl
Version: 2.2
Description: This metadata is displayed using the FGDC Plus Stylesheet, which is an XSL template that can be used with ArcGIS software to display metadata. It displays metadata elements defined in the Content Standard for Digital Geospatial Metadata (CSDGM) - aka FGDC Standard, the ESRI Profile of CSDGM, the Biological Data Profile of CSDGM, and the Shoreline Data Profile of CSDGM. CSDGM is the US Federal Metadata standard. The Federal Geographic Data Committee originally adopted the CSDGM in 1994 and revised it in 1998. According to Executive Order 12096 all Federal agencies are ordered to use this standard to document geospatial data created as of January, 1995. The standard is often referred to as the FGDC Metadata Standard and has been implemented beyond the federal level with State and local governments adopting the metadata standard as well. The Biological Data Profile broadens the application of the CSDGM so that it is more easily applied to biological data that are not explicitly geographic (laboratory results, field notes, specimen collections, research reports) but can be associated with a geographic location. Includes taxonomical vocabulary. The Shoreline Data Profile addresses variability in the definition and mapping of shorelines by providing a standardized set of terms and data elements required to support metadata for shoreline and coastal data sets. The FGDC Plus Stylesheet includes the Dublin Core Metadata Element Set. It supports W3C DOM compatible browsers such as IE7, IE6, Netscape 7, and Mozilla Firefox. It is in the public domain and may be freely used, modified, and redistributed. It is provided "AS-IS" without warranty or technical support.
Instructions: On the top of the page, click on the title of the dataset to toggle opening and closing of all metadata content sections or click section links listed horizontally below the title to open individual sections. Click on a section name (e.g. Description) to open and close section content. Within a section, click on a item name (Status, Key Words, etc.) to open and close individual content items. By default, the Citation information within the Description section is always open for display.
Download: FGDC Plus Stylesheet is available from the ArcScripts downloads at www.esri.com.