Vineyard and Nantucket Sounds, southern coast of Cape Cod including Martha's Vineyard and Nantucket: continuous bathymetry and topography terrain model of the Massachusetts coastal zone and continental shelf, (32-bit GeoTIFF, UTM 19 NAD 83, NAVD 88 vertical datum).

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Metadata:

Identification_Information:
Citation:
Citation_Information:
Originator: U.S. Geological Survey
Publication_Date: 2019
Title:
Vineyard and Nantucket Sounds, southern coast of Cape Cod including Martha's Vineyard and Nantucket: continuous bathymetry and topography terrain model of the Massachusetts coastal zone and continental shelf, (32-bit GeoTIFF, UTM 19 NAD 83, NAVD 88 vertical datum).
Edition: 2.0
Geospatial_Data_Presentation_Form: remote-sensing image
Series_Information:
Series_Name: data release
Issue_Identification: DOI:10.5066/F72806T7
Publication_Information:
Publication_Place:
Woods Hole Coastal and Marine Science Center, Woods Hole, Massachusetts
Publisher: U.S. Geological Survey, Coastal and Marine Geology Program
Online_Linkage: https://doi.org/10.5066/F72806T7
Online_Linkage: Larger_Work_Citation:
Citation_Information:
Originator: Brian D. Andrews
Originator: Wayne E. Baldwin
Originator: Daniel W. Sampson
Originator: William C. Schwab
Publication_Date: 2018
Title:
Continuous bathymetry and elevation models of the Massachusetts coastal zone and continental shelf
Edition: 3.0
Series_Information:
Series_Name: data release
Issue_Identification: DOI:10.5066/F72806T7
Publication_Information:
Publication_Place: Reston, Virginia
Publisher: U.S. Geological Survey
Other_Citation_Details:
Suggested citation: Andrews, B.D., Baldwin, W.E., Sampson, D.W., and Schwab, W.C., 2018, Continuous bathymetry and elevation models of the Massachusetts coastal zone and continental shelf (ver. 3.0, December 2019): U.S. Geological Survey data release, https://doi.org/10.5066/F72806T7.
Online_Linkage: https://doi.org/10.5066/F72806T7
Online_Linkage:
Description:
Abstract:
Integrated terrain models covering 16,357 square kilometers of the Massachusetts coastal zone and offshore waters were built to provide a continuous elevation and bathymetry terrain model for ocean planning purposes. The area is divided into the following four geographical areas to reduce file size and facilitate publishing: Massachusetts Bay from the Massachusetts-New Hampshire border south to Provincetown and Scituate and east to Stellwagen Bank; Cape Cod Bay from Provincetown to Scituate and south to Hyannis; Buzzards Bay from the Cape Cod Canal southwest to the State border including the Elizabeth Islands and extending north to Fall River and Mount Hope Bay; and Nantucket and Vineyard Sounds, from Hyannis south to the border of the Massachusetts Coastal zone approximately 8 kilometers south of Nantucket. A Triangulated Irregular Network was created from public-domain bathymetric and LiDAR data using the ArcGIS terrain-model framework and then interpolated into a 32-bit GeoTiff of 10 meter resolution. The grids for each of the four geographical areas are referenced to the Universal Transverse Mercator, Zone 19, North American Datum of 1983 coordinate system, and the North American Vertical Datum of 1988. A polygon shapefile recording the source datasets accompanies each of the four grids.
Purpose:
Provide a continuous surface starting in the offshore waters and working inshore to the shoreward extent of the Massachusetts Coastal Zone that will be used as a regional planning framework. This model, used in conjunction with the related source dataset shapefile will also 1) Provide an inventory of the most recent elevation and bathymetry datasets within the Massachusetts Coastal Zone and offshore water, and 2) Identify areas of the offshore waters that are only covered by historical lead line soundings and should be updated using new survey methods.
Supplemental_Information:
This raster data set should be used with the “Ntkt_VS_Source.shp” polygon shapefile that delineates the spatial extent of each source dataset used to produce the raster. The collection date, and spatial resolution of the source data are variable and should be considered when using this raster for analysis at fine scales. The attribute table of the “Ntkt_VS_Source.shp” provides details about the collection date, and web address of the source data.
Version 1.0 of this GeoTIFF did not include the source multipoint file “USGSMusk_5m_navd88” in Muskegat Channel as described in Processing Step 3. This was fixed by adding the multipoint file “USGSMusk_5m_navd88” to the Ntkt_VSTer terrain model, building the terrain model, then re-exporting to raster as described in processing step 7.
Time_Period_of_Content:
Time_Period_Information:
Range_of_Dates/Times:
Beginning_Date: 1887
Ending_Date: 2013
Currentness_Reference:
ground condition at the time of original survey. This data set is composed of data collected by different organizations at different times.
Status:
Progress: Complete
Maintenance_and_Update_Frequency: None planned
Spatial_Domain:
Bounding_Coordinates:
West_Bounding_Coordinate: -71.039665
East_Bounding_Coordinate: -69.668855
North_Bounding_Coordinate: 41.703016
South_Bounding_Coordinate: 41.150828
Keywords:
Theme:
Theme_Keyword_Thesaurus: USGS Metadata Identifier
Theme_Keyword: USGS:5a464a6fe4b0d05ee8c05493
Theme:
Theme_Keyword_Thesaurus: none
Theme_Keyword: U.S. Geological Survey
Theme_Keyword: USGS
Theme_Keyword: Massachusetts Office of Coastal Zone Management
Theme_Keyword: CZM
Theme_Keyword: National Ocean Service
Theme_Keyword: NOS
Theme_Keyword: National Oceanic and Atmospheric Administration
Theme_Keyword: NOAA
Theme_Keyword: U.S. Army Corps of Engineers
Theme_Keyword: USACE
Theme_Keyword: Terrain Model
Theme_Keyword: DEM
Theme_Keyword: NOAA
Theme_Keyword: LiDAR
Theme_Keyword: multibeam
Theme_Keyword: swath bathymetry
Theme:
Theme_Keyword_Thesaurus: ISO 19115 Topic Category
Theme_Keyword: oceans
Theme_Keyword: inlandWaters
Theme_Keyword: elevation
Theme:
Theme_Keyword_Thesaurus: USGS Thesaurus
Theme_Keyword: bathymetry
Theme_Keyword: sea-floor characteristics
Theme_Keyword: digital elevation models
Place:
Place_Keyword_Thesaurus: Geographic Names Information System (GNIS)
Place_Keyword: United States of America
Place_Keyword: Commonwealth of Massachusetts
Place_Keyword: Cape Cod
Place_Keyword: Martha's Vineyard
Place_Keyword: Nantucket
Place_Keyword: Vineyard Sound
Place_Keyword: Nantucket Sound
Place_Keyword: Muskeget Channel
Place_Keyword: Great Round Shoal Channel
Place_Keyword: Cross Rip Shoal
Place_Keyword: Middle Ground
Temporal:
Temporal_Keyword_Thesaurus: none
Temporal_Keyword: 1887
Temporal_Keyword: 1938
Temporal_Keyword: 1939
Temporal_Keyword: 1942
Temporal_Keyword: 1954
Temporal_Keyword: 1956
Temporal_Keyword: 1958
Temporal_Keyword: 1960
Temporal_Keyword: 1963
Temporal_Keyword: 1964
Temporal_Keyword: 1965
Temporal_Keyword: 1966
Temporal_Keyword: 1994
Temporal_Keyword: 1998
Temporal_Keyword: 2004
Temporal_Keyword: 2007
Temporal_Keyword: 2008
Temporal_Keyword: 2009
Temporal_Keyword: 2010
Temporal_Keyword: 2011
Temporal_Keyword: 2013
Access_Constraints: None.
Use_Constraints:
Not to be used for navigation. Public domain data from the U.S. Government are freely redistributable with proper metadata and source attribution. Please recognize the U.S. Geological Survey (USGS) as the source of this information. Users are advised to read the data set's metadata thoroughly to understand appropriate use and data limitations.
Point_of_Contact:
Contact_Information:
Contact_Person_Primary:
Contact_Person: Brian Andrews
Contact_Organization: U.S. Geological Survey
Contact_Position: Geographer
Contact_Address:
Address_Type: mailing and physical address
Address: 384 Woods Hole Rd.
City: Woods Hole
State_or_Province: MA
Postal_Code: 02543-1598
Country: USA
Contact_Voice_Telephone: 508-548-8700 x2348
Contact_Facsimile_Telephone: 508-457-2310
Contact_Electronic_Mail_Address: bandrews@usgs.gov
Browse_Graphic:
Browse_Graphic_File_Name: Browse_Graphic_File_Description:
Preview image of the terrain model of Vineyard and Nantucket Sounds, southern coast of Cape Cod including Martha's Vineyard and Nantucket:. File is located in the compressed zip file.
Browse_Graphic_File_Type: JPEG
Data_Set_Credit:
Please recognize the U.S. Geological Survey (USGS) as the source of this information.
Native_Data_Set_Environment:
Environment as of Metadata Creation: Microsoft [Unknown] Version 6.2 (Build 9200)
Data_Quality_Information:
Logical_Consistency_Report:
This grid was created using a 10-meter cell resolution to reflect the finest cell resolution supported by input data of the lowest spatial resolution (historical NOS fathometer data). The boundaries of all four GeoTIFFs published in this data release are designed to overlap with adjacent grids to create a seamless surface if mosaicked together. In the areas where the GeoTIFFs overlap, the values in the overlap areas may not be the same in both terrain models. This variability can be explained by one of two reasons, or a combination of both:
1) The cell values of the raster output from the terrain model depend on the origin and extent of the bounding polygon for each original TIN (triangulated irregular network). In the areas of overlap, the cells are not necessarily coincident; therefore the input data used to assign the value to that cell are not necessarily the same.
2) A different source dataset was used as input in the generation of the terrain model for adjacent GeoTIFFs. General guidelines were established for the selection of the source elevation data, but for such a large area and complicated series of possible input datasets, the same source dataset may not have been chosen as input for adjacent terrain models in areas of overlap.
Vertical differences between adjacent data sets exist in some places for two general reasons: 1) Some areas are highly dynamic over times scales that are short relative to the frequency of data acquisition. For example, around Monomoy Island (an area near Chatham, MA on the southern extent of Outer Cape Cod that is depicted in “NTK_VS_10m.tif”), where strong currents and high sediment transport rates drive continual morphologic change, high resolution LiDAR data collected along the near shore do not agree well with older soundings collected in adjacent deeper water. The boundary between data collected in different years will reflect this change in depth between adjacent datasets.
2) Differences in vertical referencing methods also cause disagreement between overlapping data. Most of the multibeam data used in this terrain model were collected and referenced to mean lower low water (MLLW) using either regional tide zone models (NOAA), or real-time kinematic tides (USGS). Although both methods for referencing data to a tidal datum are valid, small differences of 10-70 centimeters exist were these data overlap. All bathymetry referenced to tidal datums were converted to NAVD 88 vertical datum as described in Processing Step 3 and 4 below.
Completeness_Report:
In general, newer data of higher resolution supersedes older data of lower resolution where one or more surveys overlap. As a result, the grid does not include all data collected during all surveys if newer data exists for the same area(s). The terrain model extends sufficiently landward to seamlessly overlap other publicly available terrestrial LiDAR datasets.
Data gaps in this grid exist for two general reasons: 1) LiDAR does not penetrate inland lakes and ponds, and 2) although bathymetry data may exist in small estuaries they could not be transformed to NAVD 88 because the current VDatum (v.3.6) boundary file does not cover that area.
Positional_Accuracy:
Horizontal_Positional_Accuracy:
Horizontal_Positional_Accuracy_Report:
The horizontal accuracy of the source multibeam bathymetry (NOAA/NOS) is reported at +/- 3 meters. The horizontal accuracy of the swath bathymetry (USGS) is conservatively estimated to be +/- 10 meters. The LiDAR data were collected to meet the +/- 3-meter accuracy specification. Horizontal accuracy for lead-line and fathometer soundings are not documented. The horizontal accuracy of this composite topographic and bathymetric grid is assumed to be within 20 meters, as additional errors could have been introduced during resampling, vertical and horizontal reprojections, and interpolation. See USGS Open File Reports and NOAA survey descriptive reports using the "PubLink" in the "Ntk_VS_Source.shp" shapefile for individual survey positioning methods.
Vertical_Positional_Accuracy:
Vertical_Positional_Accuracy_Report:
The vertical accuracy of the source multibeam bathymetry collected by NOAA/NOS is reported at +/- 30 to 50 cm. The vertical accuracy of the swath bathymetry collected by USGS is estimated to be +/- 10 to 60 cm. The LiDAR data were collected to meet the +/- 30-cm accuracy specification. This composite topographic and bathymetric grid is assumed to be vertically accurate to within 1-meter, as additional errors could have been introduced during resampling, vertical and horizontal reprojections, and interpolation. The vertical accuracy for NOAA lead-line and single-beam sonar soundings are not documented. NOAA survey methods and processing of sounding data are in descriptive reports.
Lineage:
Process_Step:
Process_Description:
PROCESSING STEP 1: CREATE FEATURE DATASET
A feature dataset (Ntkt_VS_Terrain) was created within an ArcGIS (v. 10.3.1) file geodatabase to manage and store points and boundary polygon used to create the continuous surface. Create an empty polygon feature class that will be used as a "soft clip" boundary for the terrain model. The feature dataset and all data within it, use the Universal Transverse Mercator (UTM) Zone 19, NAD 83 coordinate system. The vertical datum for the feature dataset is the North American Vertical Datum of 1988 (NAVD 88), meters. All output files described in Steps 2-5 below were imported and stored within the "Ntk_VS_Terrain" feature dataset. This process step and all subsequent process step were performed by the same person-Brian Andrews.
Process_Date: 201607
Source_Produced_Citation_Abbreviation: Ntkt_VS_Terrain (Feature DataSet)
Source_Produced_Citation_Abbreviation: Ntkt_VSTerBnd (Polygon feature class)
Process_Contact:
Contact_Information:
Contact_Person_Primary:
Contact_Person: Brian Andrews
Contact_Organization: U.S. Geological Survey
Contact_Position: Geographer
Contact_Address:
Address_Type: mailing and physical address
Address: 384 Woods Hole Rd
City: Woods Hole
State_or_Province: MA
Postal_Code: 02543-1598
Country: USA
Contact_Voice_Telephone: 508-548-8700 x2348
Contact_Facsimile_Telephone: 508-457-2310
Contact_Electronic_Mail_Address: bandrews@usgs.gov
Process_Step:
Process_Description:
PROCESSING STEP 2:LiDAR
Download and process LiDAR datasets using the common methods detailed below. First, the tile index in polygon shapefile format (tileindex.shp) available at the "Data URL" below was downloaded for each survey to manage the numerous LiDAR data files for each survey. The tileIndex shapefile was opened in GlobalMapper (v. 17.2.2) and all files that overlapped the terrain boundaries were downloaded using the "URL" attribute within the tileindex.shp which contains the URL (with file name) to each LiDAR file.
All data were downloaded in laz format using the Geographic Coordinate System NAD 83, reviewed for point classification range, and final class codes of "Ground" or "valid bathymetric points" were used (described below in Data Source entry) to create a bare earth model. LAZ point files were converted to a grid in GlobalMapper using the Binning (Average Value) method with the "Elevation Grid "No Data" Distance Criteria" set to zero so no interpolation occurred over "no data" values such as building footprints or other non-bare earth features. The Universal Transverse Mercator, (UTM) Zone 19, NAD83, and the North American Vertical Datum of 1988 (NAVD 88) coordinate systems were specified for the Global Mapper project.
The gridded data were exported from GlobalMapper as a 32-bit floating point GeoTIFF with resolutions of 5 or 10 meters depending on the area covered by the data set. For example, the 2013 USACE LiDAR survey of the Menemsha Harbor and Pond (an area on the western coast of Martha’s Vineyard depicted in “Ntkt_VS_10m.tif) was exported at 5-meter resolution to capture the detail of the relatively small area. Datasets covering larger areas (e.g. USACE 2007 Cape and Islands survey) were exported at 10-meter resolutions to provide adequate feature detail while facilitating computation of the terrain model. The resolution of each input raster dataset is identified in parentheses in the "output multipoint file" section below. Polygon outlines were created for each of the input LiDAR grids (listed below) and used to mask older or lower quality data in areas of overlap. The polygons are published in this data release in the "Ntkt_VS_Source" shapefile. See metadata of that layer for more information on the logic of the clipping operations. After addressing areas of overlap (if required), each input grid was exported to an ArcGIS Multipoint feature class for input to the terrain model.
The surveys used as sources for this and subsequent processing steps are documented below using the following format:
Data Source: Title of published dataset as listed in metadata.
Data URL: Web address to metadata.
Download Date: Date data were downloaded.
ASPRS Class used:(This only pertains to LiDAR data) LiDAR data are published using point classifications according to
standards established in the American Society of Photogrammetry and Remote Sensing (ASPRS).
Class number and description used for this grid are described.
Output Multipoint File: The name of the multipoint file used as input to the terrain
model. The resolution in meters of the GeoTIFF used to create the multipoint file is in parentheses.
Note: File size for historical NOAA singlebeam x,y, z data were small enough that they used simple point feature classes instead
of multipoint feature classes. In addition, these historical data are published as x,y,z only (not gridded), so there is no
cell resolution associated with them as other input datasets.

Data Source: 2013-2014 U.S. Geological Survey CMGP LiDAR: Post Sandy (MA, NH, RI)
Data URL: https://coast.noaa.gov/htdata/lidar1_z/geoid12b/data/4914/2013_2014_usgs_post_sandy_ma_nh_ri_metadata.html
Download date: 201604
ASPRS Class used: 2=Ground
Output Multipoint File:USGS2013_14LiDARCCSouth_MP_navd88 (10 m)- covers south coast of Cape Cod
Output Multipoint File: USGS2013_MV10m_MP (10 m)-covers Martha's Vineyard
Output Multipoint File: USGS2013_Ntkt10m_MP (10 m)-covers Nantcuket
Note: This survey was exported into three different multipoint files to facilitate data management.

Data Source:2013 USACE NAE Topobathy LiDAR: Massachusetts.
Data URL:https://coast.noaa.gov/htdata/lidar1_z/geoid12b/data/4933/ma2013_usace_nae_massachusetts_m4933_metadata.html
Download Date:201604
ASPRS Class Used: 1= unclassified, 2=Ground, 29=valid bathymetric points.
Output Multipoint File: ACOE_2013Ntkt_MP_navd88 (10 m)- covers portions of Nantucket Harbor
Output Multipoint File: ACOE_2013Men_MP_navd88 (5 m)-covers portions of Menemsha Harbor/Pond
Note: Data extent covered portions of Nantucket Harbor, and Menemsha Harbor/Pond. This survey was exported into two different multipoint files to facilitate data management.

Data Source:2010 US Army Corps of Engineers (USACE) Joint Airborne LiDAR Bathymetry Technical Center of eXpertise (JALBTCX) Topobathy LiDAR: Northeast (MA,ME, NH, RI)
Data URL:https://coast.noaa.gov/htdata/lidar1_z/geoid12a/data/1174/2010_USACE_NE_metadata.html
Download Date:201604
ASPRS Class Used:11=NOAA OCM Bathymetry
Output Multipoint File:ACOE_2010BathLiDAR_MP_navd88 (10 m)
Note: Elevation and bathymetry point clouds were published separately and only the bathymetry files were used from this survey.

Data Source:2011 U.S. Geological Survey Topographic LiDAR: LiDAR for the North East
Data URL: https://coast.noaa.gov/htdata/lidar1_z/geoid12a/data/2524/ne2011_usgs_lftne_metadata.html
Download Date:201611
ASPRS Class Used:2=Ground
Output File:USGS2011_SouthCC_10m_MP (10 M)

Data Source:2005 - 2007 US Army Corps of Engineers (USACE) Topo/Bathy LiDAR: Maine, Massachusetts, and Rhode Island
Data URL:https://coast.noaa.gov/htdata/lidar1_z/geoid12a/data/116/2005-2007_NE_Topobathy_metadata.html
Download Date:201604
ASPRS Class Used: class=11 "water". Used elevation files (Class=1) for Nomans Land Island only.
Output Multipoint File:ACOE2007_CAI_10m_MP (10 m)
Output Multipoint File: ACOE2007_NoMans_5m_MP (5 m)
Note: This survey was exported into two different multipoint files to facilitate data management.
Process_Date: 201607
Process_Step:
Process_Description:
PROCESSING STEP 3: U.S. GEOLOGICAL SURVEY SWATH BATHYMETRY
Swath bathymetry data from six published USGS Open-File Reports were used to compile this grid. Bathymetry data were downloaded from individual publications and processed using the common methods detailed below. Data were published using the UTM 19 WGS 84 horizontal datum, and a tidal datum of Mean Lower Low Water (MLLW). These data were transformed to UTM 19 NAD 83 horizontal datum and the North American Vertical Datum 1988 using VDatum Tool (v 3.6). Bathymetry data from USGS Open-File Report 2008-1288 were published using a local vertical datum of the Martha's Vineyard Ocean Coastal Observatory (MVCO) and later referenced to MLLW using a Zone Tidal Model from NOAA and then converted to NAVD 88 using VDatum (v. 3.6) developed by NOAA National Geodetic Survey https://vdatum.noaa.gov/. Polygon outlines were created for each of the input grids (listed below) and used to mask older or lower quality data in areas of overlap. The polygons are published in this data release in the "Ntkt_VS_Source" shapefile. See metadata of that layer for more information on the logic of the clipping operations. After addressing areas of overlap (if required), the input grids were exported to ArcGIS Multipoint feature classes for input to the terrain model.
Data Source: VS_BATH5M_V2: Revised 5 meter ArcRaster grid of bathymetry acquired using a SEA Ltd. SWATHplus-M 
interferometric sonar offshore of Massachusetts within Vineyard Sound by the U.S. Geological Survey in 2009, 2010,
and 2011 (Esri BINARY GRID, >UTM 19N, WGS84).
Note: The link to the zip file (below) is provided here because the link to the zip file in metadata (above) 
is incorrect. The data included in this combined grid were collected in 2009, 2010, and 2011.
Data URL (zip)https://pubs.usgs.gov/of/2012/1006/GIS/raster/bathymetry/vs_bath5m_v2.zip
Download Date:201608
Output Multipoint File: USGS_vs5m_navd88 (5 m)

Data Source: BATHY_2M:Bathymetric data collected by the U.S. Geological Survey off the southern shore of Martha's 
Vineyard, MA, 2007 (ESRI BINARY GRID). Note: Although data were published using a 2-m resolution, the original data 
files in CARIS HIPS format were accessed and regridded using a 5-m resolution for use in this merged grid.
Data URL:https://pubs.usgs.gov/of/2008/1288/GIS_catalog/Bathy/bathy_2m.html
Download Date:201608
Output Multipoint File:MVCO_5mMP_navd88
Note: Data were converted from local MVCO datum to MLLW using a Zone Tidal Model from NOAA. Then MLLW grid was converted to NAVD 88 using Vdatum (v 3.6).

Data Source: survey1_2m: Swath bathymetry gridded data (survey 1) collected by the U.S. Geological Survey surrounding Muskeget Channel,
MA, October 2010 (Esri grid, UTM Zone 19N, WGS 84, 2-m resolution)
Data URL: https://pubs.usgs.gov/of/2012/1258/GIS_catalog/bathy/Survey1/survey1_2m.html
Download Date: 20160816
Output Multipoint File: USGSMusk_5m_navd88
Note: Data were published as 2-m grid, and aggregated to 5-m before converting to a multipoint file.

Data Source: allswathi_5m: Composite swath bathymetry gridded data collected by the U.S. Geological Survey surrounding 
the eastern Elizabeth Islands and northern Martha's Vineyard, MA, 2011 (Esri grid, UTM Zone19 N, WGS 84, 5-m resolution)
Data Url:https://pubs.usgs.gov/of/2013/1020/GIS_catalog/bathy/all/allswathi_5m.html
Download Date:20160824
Output Multipoint File:USGS2013_1020_5mMPnavd88_h
Note: Data collected around the Elizabeth Islands were not included in this grid, and are included in the Buzzards Bay Terrain Model.

Data Source: 2013-003-FA_Bath5m.tif: 5-meter bathymetric data collected in 2013 by the U.S. Geological Survey south of Martha's Vineyard and north of Nantucket, Massachusetts (32-bit floating-point bathymetry GeoTIFF and depth-colored hillshaded GeoTIFF, UTM Zone 19N, WGS 84)
Data URL: https://pubs.usgs.gov/of/2016/1168/GIS_catalog/raster/bathy/2013-003-FA_Bath5m_MLLW_meta.html
Download Date: 20161101
Output Multipoint File: USGS_003_5m_MP_navd88 

Data Source: CAPESOUTH_GEO4M_XYZ.TXT: ASCII formatted file of the 4-m bathymetry from the southern half of USGS Survey 98015 of the Sea Floor off Eastern Cape Cod (Geographic)
Data URL:https://pubs.usgs.gov/of/2005/1048/data/bathymetry/grid/capesouth_geo4m_xyz.htm
Download Date: 20161101
Output Multipoint File:USGS_OFR1048_5m_MP_navd88
Note: x,y,z file was reprojected to UTM Zone 19 with the output cell size set to 5 meters, then exported as an ascii text for conversion in VDatum.
Process_Date: 201611
Process_Step:
Process_Description:
PROCESSING STEP 4: NOAA BATHYMETRY
Data were downloaded from NOAA National Center for Environmental Information (NCEI)and processed as described below. Most NOAA multibeam data accessed for this grid are published using the UTM Zone 19, NAD 83 coordinate system and the Mean Lower Low Water (MLLW) tidal datum. Most historical sounding data (fathometer, singlebeam) data accessed for this grid are published in x,y,z format using a Geographic coordinate system (lat,lon) in the NAD 83 horizontal datum and a mean low water (MLW) or mean lower low water (MLLW) tidal datum. Data were transformed into the UTM, Zone 19 NAD 83 coordinate system (if required), and the NAVD 88 vertical datum using VDatum Tool (v 3.6).
A point feature class ("SurveyName"_navd88) was created for each survey along with an associated boundary polygon ("SurveyName"_Mask) encompassing the soundings. The boundary polygon was clipped to remove soundings in areas that overlapped with newer multibeam or bathymetric LiDAR data. During the clipping operation a 50 to a 100 meter buffer was applied to create space between the older sparse echosounder data, and the new higher resolution data. This 50 to 100-meter distance between the different data densities, creates a gradual transition in the terrain model and improves the quality of the final 10-meter grid by smoothing transitions between datasets.

Data Source: H01802
Data URL: https://www.ngdc.noaa.gov/nos/H00001-H02000/H01802.html
Collection Date: 1887
Collection Method: unknown
Download Date: 200906
Output file: H01802_navd88

Data Source: H06349
Data URL: https://www.ngdc.noaa.gov/nos/H06001-H08000/H06349.html
Collection Date:1938
Collection Method: Hand lead line
Download Date: 200906
Output file: H06349_navd88

Data Source: H06471
Data URL:https://www.ngdc.noaa.gov/nos/H06001-H08000/H06471.html
Collection Date: 1939
Collection Method: Hand lead line
Download Date:200906
Output file: H06471_navd88

Data Source: H06534
Data URL: https://www.ngdc.noaa.gov/nos/H06001-H08000/H06534.html
Collection Date: 1939
Collection Method: Fathometer
Download Date: 200906
Output file: H06471_navd88

Data Source: H06472
Data URL: https://www.ngdc.noaa.gov/nos/H06001-H08000/H06472.html
Collection Date: 1939
Collection Method: Hand lead line
Download Date: 200906
Output file: H06472_navd88

Data Source: H06445
Data URL: https://www.ngdc.noaa.gov/nos/H06001-H08000/H06445.html
Collection Date: 1939
Collection Method: Fathometer
Download Date: 200906
Output file: H06472_navd88

Data Source: H06468
Data URL:https://www.ngdc.noaa.gov/nos/H06001-H08000/H06468.html
Collection Date: 1942
Collection Method: Fathometer
Download Date: 200906
Output file: H06469_navd88

Data Source: H06469
Data URL:https://www.ngdc.noaa.gov/nos/H06001-H08000/H06469.html
Collection Date: 1939
Collection Method:Hand lead line
Download Date:200906
Output file:H06469_navd88

Data Source: H06533
Data URL: https://www.ngdc.noaa.gov/nos/H06001-H08000/H06533.html
Collection Date: 1939
Collection Method: Fathometer
Download Date: 200906
Output file: H06533_navd88

Data Source: H06534
Data URL: https://www.ngdc.noaa.gov/nos/H06001-H08000/H06534.html
Collection Date: 1939
Collection Method: Fathometer
Download Date: 200906
Output file: H06534_navd88

Data Source: H08171
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08171.html
Collection Date: 1954
Collection Method: Fathometer
Download Date: 200906
Output file: H08171_navd88

Data Source: H08172
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08172.html
Collection Date: 1954
Collection Method: Fathometer
Download Date: 200906
Output file: H08172_navd88

Data Source: H08449
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08449.html
Collection Date: 1958
Collection Method: Fathometer
Download Date: 200906
Output file: H08449_navd88

Data Source: H08450
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08450.html
Collection Date: 1957
Collection Method: Fathometer
Download Date: 200906
Output file: H08450_navd88

Data Source: H08497
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08497.html
Collection Date: 1958
Collection Method:Fathometer
Download Date: 200906
Output file: H08497_navd88

Data Source: H08631
Data URL:https://www.ngdc.noaa.gov/nos/H08001-H10000/H08631.html
Collection Date: 1960
Collection Method: Fathometer
Download Date: 200906
Output file: H08631_navd88

Data Source: H08760
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08760.html
Collection Date: 1963
Collection Method:Fathometer
Download Date: 200906
Output file: H08760_navd88

Data Source: H08761
Data URL:https://www.ngdc.noaa.gov/nos/H08001-H10000/H08761.html
Collection Date: 1963
Collection Method: Fathometer
Download Date: 200906
Output file: H08761_navd88

Data Source: H08820
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08820.html
Collection Date: 1964
Collection Method: Fathometer
Download Date: 200906
Output file: H08820_navd88

Data Source: H08821
Data URL:https://www.ngdc.noaa.gov/nos/H08001-H10000/H08821.html
Collection Date: 1964
Collection Method: Fathometer
Download Date: 200906
Output file: H08821_navd88

Data Source: H08845
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08845.html
Collection Date: 1964
Collection Method: Fathometer
Download Date: 200906
Output file: H08845_navd88

Data Source: H08846
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08846.html
Collection Date: 1964
Collection Method: Fathometer
Download Date: 200906
Output file: H08846_navd88

Data Source: H06446
Data URL: https://www.ngdc.noaa.gov/nos/H06001-H08000/H06446.html
Collection Date: 1939
Collection Method: Fathometer
Download Date: 201610
Output file: H06446_navd88

Data Source: H08902
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08902.html
Collection Date: 1966
Collection Method: Fathometer
Download Date: 200906
Output file: H08902_navd88

Data Source: H08903
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08903.html
Collection Date: 1966
Collection Method: Fathometer
Download Date: 200906
Output file: H08903_navd88

Data Source: H08905
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08905.html
Collection Date: 1966
Collection Method: Fathometer
Download Date: 200906
Output file: H08905_navd88

Data Source: H10498
Data URL: https://www.ngdc.noaa.gov/nos/H10001-H12000/H10498.html
Collection Date: 1993
Collection Method: Fathometer
Download Date: 200906
Output file: H10498_navd88

Data Source: H10547
Data URL: https://www.ngdc.noaa.gov/nos/H10001-H12000/H10547.html
Collection Date: 1994
Collection Method: Fathometer	
Download Date: 200906
Output file: H10498_navd88

MULTIBEAM STARTS HERE
Data Source: H12007
Data URL: https://www.ngdc.noaa.gov/nos/H12001-H14000/H12007.html
Collection Date: 2009
Collection Method: Multibeam
Download Date: 201609
Output file: H12007_navd88

Data Source: H11920
Data URL: https://www.ngdc.noaa.gov/nos/H10001-H12000/H11920.html
Collection Date: 2008
Collection Method: Multibeam
Download Date: 201609
Output file: H11920_navd88

Data Source: H11079
Data URL: https://www.ngdc.noaa.gov/nos/H10001-H12000/H11079.html
Collection Date: 2004
Collection Method: Multibeam
Download Date: 201609
Output file: H11079_navd88

Data Source: H11346
Data URL: https://www.ngdc.noaa.gov/nos/H10001-H12000/H11346.html
Collection Date: 2004
Collection Method: Multibeam
Download Date: 201609
Output file: H11346_navd88
Note: This is a combined multibeam and singlebeam sonar survey. Gaps exist of 50-60 meters between adjacent singlebeam lines. See Data url above for figure of data coverage.

Data Source: H08349
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08349.html
Collection Date: 1956
Collection Method: Fathometer	
Download Date: 201612
Output file: H08349_navd88

Data Source: H08350
Data URL: https://www.ngdc.noaa.gov/nos/H08001-H10000/H08350.html
Collection Date: 1956
Collection Method: Fathometer	
Download Date: 201612
Output file: H08350_navd88
Process_Date: 201609
Process_Step:
Process_Description:
PROCESSING STEP 5: APPEND POLYGON SURVEYMASK BOUNDARIES TO TERRAINBND.
A polygon boundary was created as a "soft clip" during the terrain building process by appending all the "SurveyName"_Mask polygons to the "Ntkt_VS_TerBnd" feature class created in STEP 1 above. The Ntkt_VS_TerBnd feature class was reviewed and edited as needed to fill gaps between adjacent mask polygons, or fill no data holes within the LiDAR data produced from using only ground or valid bathymetry points in the input LiDAR laz files. Gaps within, and between, bathymetric mask polygons were filled if the adjacent data supported interpolating across the no data gap. For example, the gaps between adjacent lines from NOAA Survey H12642 at the entrance to New Bedford Harbor were filled in because A) the gaps between adjacent lines were small (30-40 meters), and B) The adjacent data was new high resolution multibeam data. Gaps remain onshore in lakes, ponds, or small steams where terrestrial LiDAR did not penetrate. Gaps remain in the bathymetry in areas not covered by the VDatum boundary.
Process_Date: 201611
Source_Produced_Citation_Abbreviation: Ntkt_VS_TerBnd
Process_Step:
Process_Description:
PROCESSING STEP 6: CREATE TERRAIN.
An ArcGIS (v. 10.3.1) Terrain (VS_Ntkt_VSTer) was created within the Ntkt_VS_Terrain feature dataset created in step 1 using the context menu in ArcCatalog (v. 10.3.1) and the following parameters: average point spacing = 10 meters, pyramid type = Z Tolerance. One Terrain pyramid level of Tolerance 1 was used as a thinning routine to facilitate faster redraw times when working with the Terrain (TIN). During the build process the "Ntkt_VS_TerBnd" created in Step 6 was used as a "soft clip" to delineate the data boundaries.
Process_Date: 201710
Source_Produced_Citation_Abbreviation: Ntkt_VSTer
Process_Step:
Process_Description:
PROCESSING STEP 7: CONVERT TERRAIN TO RASTER.
The terrain (Ntkt_VSTer) was converted to a 32-bit GeoTIFF (Ntkt_VS_10m_V2.tif) using the "Convert Terrain to Raster" tool in ArcGIS (v. 10.3.1), specifying the Natural Neighbors method and a cell size of 10 meters. During the conversion process a pyramid level of zero was selected so that all the points were used to create the raster.
Source_Used_Citation_Abbreviation: Ntkt_VSTer
Process_Date: 201910
Source_Produced_Citation_Abbreviation: Ntkt_VS_10m_V2.tif
Process_Step:
Process_Description:
Added keywords section with USGS persistent identifier as theme keyword.
Process_Date: 20200807
Process_Contact:
Contact_Information:
Contact_Organization_Primary:
Contact_Organization: U.S. Geological Survey
Contact_Person: VeeAnn A. Cross
Contact_Position: Marine Geologist
Contact_Address:
Address_Type: Mailing and Physical
Address: 384 Woods Hole Road
City: Woods Hole
State_or_Province: MA
Postal_Code: 02543-1598
Contact_Voice_Telephone: 508-548-8700 x2251
Contact_Facsimile_Telephone: 508-457-2310
Contact_Electronic_Mail_Address: vatnipp@usgs.gov
Spatial_Data_Organization_Information:
Direct_Spatial_Reference_Method: Raster
Raster_Object_Information:
Raster_Object_Type: Grid Cell
Row_Count: 5955
Column_Count: 11364
Vertical_Count: 1
Spatial_Reference_Information:
Horizontal_Coordinate_System_Definition:
Planar:
Grid_Coordinate_System:
Grid_Coordinate_System_Name: Universal Transverse Mercator
Universal_Transverse_Mercator:
UTM_Zone_Number: 19
Transverse_Mercator:
Scale_Factor_at_Central_Meridian: 0.999600
Longitude_of_Central_Meridian: -69.000000
Latitude_of_Projection_Origin: 0.000000
False_Easting: 500000.000000
False_Northing: 0.000000
Planar_Coordinate_Information:
Planar_Coordinate_Encoding_Method: row and column
Coordinate_Representation:
Abscissa_Resolution: 10.000000
Ordinate_Resolution: 10.000000
Planar_Distance_Units: meters
Geodetic_Model:
Horizontal_Datum_Name: D_NAD_1983_2011
Ellipsoid_Name: Geodetic Reference System 80
Semi-major_Axis: 6378137.000000
Denominator_of_Flattening_Ratio: 298.257222101
Vertical_Coordinate_System_Definition:
Altitude_System_Definition:
Altitude_Datum_Name: North_American_Vertical_Datum_1988
Altitude_Resolution: 1.0
Altitude_Distance_Units: Meter
Altitude_Encoding_Method:
Explicit elevation coordinate included with horizontal coordinates
Entity_and_Attribute_Information:
Overview_Description:
Entity_and_Attribute_Overview:
Elevation values in Esri 32-bit GeoTIFF format. Data values represent elevations above, and depths below the North American Vertical Datum of 1988 (NAVD 88)
Entity_and_Attribute_Detail_Citation: Esri
Distribution_Information:
Distributor:
Contact_Information:
Contact_Organization_Primary:
Contact_Organization: U.S. Geological Survey-ScienceBase
Contact_Address:
Address_Type: mailing and physical address
Address: Denver Federal Center, Building 810, Mail Stop 302
City: Denver
State_or_Province: CO
Postal_Code: 80225
Country: USA
Contact_Voice_Telephone: 1-888-275-8747
Contact_Electronic_Mail_Address: sciencebase@usgs.gov
Resource_Description:
Ntkt_VS_10m_V2.tif: file contains the 32-bit GeoTIFF (Ntkt_VS_10m_V2.tif), TIFF world file (Ntkt_VS_10m_V2.tfw), Ntkt_VS_10m.jpg browse graphic, and the associated FGDC CSDGM metadata in XML, HTML, FAQ, and text formats.
Distribution_Liability:
Neither the U.S. Government, the Department of the Interior, nor the USGS, nor any of their employees, contractors, or subcontractors, make any warranty, express or implied, nor assume any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, nor represent that its use would not infringe on privately owned rights. The act of distribution shall not constitute any such warranty, and no responsibility is assumed by the USGS in the use of these data or related materials. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.
Standard_Order_Process:
Digital_Form:
Digital_Transfer_Information:
Format_Name: GeoTIFF
Format_Version_Number: ArcGIS (v. 10.3.1)
Format_Specification: GeoTIFF image
Format_Information_Content:
This WinZip file contains the 32-bit floating point GeoTIFF, and associated metadata for the terrain model of Nantucket and Vineyard Sounds
File_Decompression_Technique: WinZip
Transfer_Size: 165
Digital_Transfer_Option:
Online_Option:
Computer_Contact_Information: Access_Instructions:
The network resources offer the options of downloading the individual files, or accessing the landing page of the data release.
Fees: None
Technical_Prerequisites:
To utilize this data, the user must have software capable of reading a 32-bit GeoTIFF.
Metadata_Reference_Information:
Metadata_Date: 20240319
Metadata_Contact:
Contact_Information:
Contact_Person_Primary:
Contact_Person: Brian Andrews
Contact_Organization: U.S. Geological Survey, Northeast Region
Contact_Position: Geographer
Contact_Address:
Address_Type: mailing address
Address: 384 Woods Hole Road
City: Woods Hole
State_or_Province: MA
Postal_Code: 02543
Contact_Voice_Telephone: 508-548-8700 ext. 2348
Contact_Electronic_Mail_Address: whsc_data_contact@usgs.gov
Contact_Instructions:
The metadata contact email address is a generic address in the event the person is no longer with USGS. (updated on 20240319)
Metadata_Standard_Name: FGDC Content Standard for Digital Geospatial Metadata
Metadata_Standard_Version: FGDC-STD-001-1998

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