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YXRhPg== Oceanographer U.S. Department of Interior, Bureau of Ocean Energy Management, Marine Minerals Program (703) 787-1747 45600 Woodland Road, VAM-LD Sterling VA 20166 US marineminerals@boem.gov Monday through Friday 8:00 AM to 5:00 PM (Eastern Time) http://www.boem.gov/Marine-Minerals-Program 20210210 ArcGIS Metadata 1.0 WaterResults 2021-02-10 U.S. Department of Interior, Bureau of Ocean Energy Management, Marine Minerals Program Sterling, VA U.S. Department of Interior, Bureau of Ocean Energy Management, Marine Minerals Program tabular digital data The Water Results Table contains measurement readings (e.g. temperature, pH, salinity, conductivity, oxygen, turbidity, pressure, density, etc.) at each water sampling station listed in the related Water Samples feature class. These measurements are used to characterize the water column (e.g. evaluate water quality) in each location and include depth, temperature, pH, salinity, conductivity, oxygen, turbidity, pressure, density, etc. These data were collected during investigations conducted on or around the Outer Continental Shelf (OCS) and were funded completely or partially by the Bureau of Ocean Energy Management (BOEM). The associated study report can be accessed via the Link Documents table. This dataset will be updated regularly as new and existing data are incorporated in to the MMIS geodatabase. These data provide baseline characterization of the water column in each location and are used to support a wide variety of ecological and physical models used for planning and management decisions and also provide a basis for further process-oriented investigations. US 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. Outer Continental Shelf ATLANTIC OCEAN GULF OF MEXICO SEA FLOOR GLOBAL OCEAN NORTH ATLANTIC OCEAN NASA/GCMD Location Keywords Offshore Water Quality Dissolved Oxygen Water Column Oceanographic Sensors Salinity CTD Water Temperature Conductivity Sea Surface Temperature pH Oxygen Physical Oceanography Turbidity Ocean Modeling YSI Current Speed Light Transmission ATLANTIC OCEAN Offshore Water Quality Dissolved Oxygen Water Column Oceanographic Sensors Salinity CTD GULF OF MEXICO Water Temperature Conductivity Sea Surface Temperature SEA FLOOR GLOBAL OCEAN pH Oxygen Physical Oceanography Turbidity Ocean Modeling YSI Outer Continental Shelf NORTH ATLANTIC OCEAN Current Speed US Light Transmission This data is in the public domain and has no access restrictions. FIPS 199 Security Classification There are no restrictions; the data is releasable to the public. The Bureau of Ocean Energy Management (BOEM) provides the data for use "as is". BOEM provides this information with the understanding that it is not guaranteed to be accurate, correct or complete and conclusions drawn from such information are the responsibility of the user. While every effort has been made to ensure the accuracy, correctness and timeliness of materials presented within the limits of the current state of the art, BOEM assumes no responsibility for errors or omissions, nor as a result of the failure of the data to function on a particular system. BOEM makes no warranty, expressed or implied, nor does the fact of distribution constitute such a warranty. Users are cautioned to consider carefully the provisional nature of these data and information before using them for decisions that concern personal or public safety or the conduct of business that involves substantial monetary or operational consequences. Conclusions drawn from or actions undertaken on the basis of, such data and information are the sole responsibility of the user. The maps shown here are for illustration and planning purposes only and are not suitable for site-specific decision making. The data are not suitable for navigational purposes. Information found here should not be used for making financial or any other commitments. This data was developed by the U.S. Government; no other proprietary rights may be attached to them nor may they be sold to the U.S. Government as part of any procurement of products or services. Public domain data from the U.S. Government are freely redistributable with proper metadata and source attribution. Please recognize the Bureau of Ocean Energy Management (BOEM) as the source of this information. Version 6.2 (Build 9200) ; Esri ArcGIS 10.6.1.9270 publication date 2021-02-10 The most current version of this dataset can be downloaded via the Marine Minerals Information System (MMIS) viewer at https://mmis.doi.gov/boemmmis/. For additional information pertaining to BOEM's marine minerals program and OCS resource management please visit https://www.boem.gov/Marine-Minerals-Program/. 20220210 The MMIS data model utilizes a hierarchical structure where an ESRI enterprise geodatabase represents the top tier, and feature datasets and raster catalogs are the secondary tiers which contain groupings of similar data layers. These individual data layers were identified by MMP as important, and they make up the bottom tier. Most individual vector layers and tables are collections of data from multiple sources and across multiple dates. Extensive research went into the construction of (1) the hierarchical groupings of data (primarily by subject matter and file format) and (2) technical aspects of the data model. Data within the geodatabase was consolidated to reduce redundancy, resulting in several stand-alone tables. Relationship classes utilizing global IDs were built between vector layers and stand-alone tables in order to link disparate data. The entire MMIS data model was originally constructed using ESRI ArcGIS Diagrammer, a tool that creates and edits a geodatabase schema. The resulting geodatabase structure, data, and relationship classes were reviewed thoroughly by multiple individuals using ESRI Geodatabase Diagrammer Add-In, ESRI ArcGIS, and Microsoft Visio. ESRI Geodatabase Diagrammer Add-In creates a detailed break-down of the geodatabase and a Visio data model poster. The spatial data and attribute tables loaded into the MMIS data model are believed to be complete, in regards to maintaining each data layer/table after retrieving it from its source. Please refer to the scientific reports, as well as BOEM MMP Leases, negotiated agreements, Memoranda of Agreements, and project completion reports, for discussions of the results on the corresponding source data. Most individual vector layers and tables in the MMIS data model are collections of data from multiple sources and across multiple dates. Most likely, these MMIS layers/tables will continue to have more data loaded in the future, therefore expanding upon the list of sources and dates. Additionally, the Pacific Outer Continental Shelf (OCS) and Alaska OCS regions may eventually be added to the data model, aside from the Atlantic and Gulf of Mexico OCS regions. Please refer to the scientific reports, as well as Bureau of Ocean Energy Management (BOEM) Marine Minerals Program (MMP) Leases, negotiated agreements, cooperative agreements, Memoranda of Agreements, and project completion reports, for accuracy statements on the corresponding source data. These documents are referenced in the attribute tables, where appropriate. In regards to attribute assignment in the Marine Minerals Information Systems (MMIS) data model, every effort was made to load source data into MMIS without error or modification. Some attributes contain domain restrictions in an effort to standardize the field entries and to decrease potential inconsistent entries (e.g., spelling, grammar, typographical errors, and subject matter) in the attribute. unknown unknown The spatial and tabular data presented in this dataset was identified by the Bureau of Ocean Energy Management (BOEM) Marine Minerals Program (MMP) for the MMIS project as being critical for MMP's decision making and management responsibilities of federal Outer Continental Shelf (OCS) mineral exploration and federal non-energy sand/gravel lease activities. The data was retrieved directly from BOEM, or another government entity, in the form of one or more ArcGIS shapefiles, raster (grid) layers, Microsoft Excel spreadsheets, XYZ files, field logs, project reports, PDF tables, and maps. This data was linked to source documents including environmental study reports and data deliverables associated with Negotiated Non-Competitive Leases or Memorandum of Agreements between BOEM and partnering agencies or contractors. First, the source data was reformatted, if needed, into an ESRI ArcGIS compatible format and then loaded into a project-specific geodatabase in its native projection. Second, the data was reprojected into the NAD83 geodetic reference system and then loaded into corresponding layers and tables in the MMIS enterprise geodatabase. Relationship classes were made between disparate layers and tables to join related data. Lastly, for use in the web application, a duplicate "publishable" MMIS enterprise geodatabase was created in a Web Mercator (Auxiliary Sphere) projection. For specific process information regarding acquisition, please reference the individual study reports. 2021-02-10 Lineage varies by data source. Some data was contributed, some was mapped/reformatted from scientific and technical reports for MMIS. BOEM Archives BOEM Archives 2021-02-10 Multiple investigators and projects U.S. Department of Interior, Bureau of Ocean Energy Management, Marine Minerals Program document publication date 1995-09-19 2021-02-10 WaterResults Characterize the sea state at the time and location of sample collection BOEM Table 632 Dens_kgm3 Density (kg/m3) BOEM Density (kg/m3) Density (kg/m3) Double 8 38 8 StudyID Study ID of the study in which the feature was identified. Study ID following the convention noted in the Data Management Plan BOEM Study ID of the study in which the feature was identified. Study ID following the convention noted in the Data Management Plan Study ID String 250 0 0 StationID Station identifier where sampling device was deployed BOEM Station identifier where sampling device was deployed Station ID String 20 0 0 O2_mgl Dissolved Oxygen (mg/L) BOEM Dissolved Oxygen (mg/L) Dissolved Oxygen (mg/L) Double 8 38 8 WCSalinity Salinity in seawater results from a concentration of salts including bromine, iodine, and (principally) sodium chloride. Salinity is measured as a dimensionless conductivity ratio on the practical salinity scale (PSS), which was established by the International Association for the Physical Sciences of the Oceans (IAPSO) in 1978 (UNESCO 1981). Most aquatic organisms function optimally within a narrow range of salinities, which has impact on the ecological balance and trophic structure of communities. CMECS Euhaline Water Euhaline Water CMECS Hyperhaline Water Hyperhaline Water CMECS Lower Polyhaline Water Lower Polyhaline Water CMECS Upper Polyhaline Water Upper Polyhaline Water CMECS Oligohaline Water Oligohaline Water CMECS Mesohaline Water Mesohaline Water CMECS CMECS Water Component Salinity String 50 0 0 WCLayer The Water Column Layer Subcomponent resolves the water column vertically into its major coherent layers based on position relative to the surface and to the pycnocline or mid-depth. These layers reflect ecologically important characteristics of the water column structure CMECS Marine Nearshore Upper Water Column Marine Nearshore Upper Water Column CMECS Marine Nearshore Pycnocline Marine Nearshore Pycnocline CMECS Marine Nearshore Lower Water Column Marine Nearshore Lower Water Column CMECS Marine Offshore Pycnocline Marine Offshore Pycnocline CMECS Marine Offshore Surface Layer Marine Offshore Surface Layer CMECS Marine Offshore Upper Water Column Marine Offshore Upper Water Column CMECS Marine Nearshore Surface Layer Marine Nearshore Surface Layer CMECS Marine Offshore Lower Water Column Marine Offshore Lower Water Column CMECS CMECS Water Component Layer String 50 0 0 Eh_mV Oxidation Potential (mV) BOEM Oxidation Potential (mV) Oxidation Potential (mV) Double 8 38 8 OBJECTID Internal feature number Esri Internal feature number OBJECTID OID 4 10 0 GlobalID Globally Unique Identifier Esri Globally Unique Identifier GlobalID GlobalID 38 0 0 Sal_ppt Salinity (ppt) BOEM Salinity (ppt) Salinity (ppt) Double 8 38 8 pH pH BOEM pH pH Double 8 38 8 Pres_dbars Pressure (dbars) BOEM Pressure (dbars) Pressure (Dbars) Double 8 38 8 Water_GlobalResultID Uniquely identifies a Water Result record to the Water Samples FC BOEM Uniquely identifies a Water Result record to the Water Samples FC Global Water ID GUID 38 0 0 Velocity_msec Velocity in meters per second BOEM Velocity in meters per second Velocity (meters/sec) Double 8 38 8 Turb_NTU Turbidity (NTU) BOEM Turbidity (NTU) Turbidity (NTU) Double 8 38 8 WCTemperature Temperature categories are established in intervals of sufficient range and resolution to provide meaningful ecological differences yet yield a parsimonious number of categories. Temperature categories are based on the British Columbia Marine Ecological Classification for Canada (Howes, Harper, and Owens 1994, Zacharias et al. 1998, Resource Information Standards Committee 2002), modified to add the higher temperature ranges typical of the subtropics and tropics. CMECS Hot Water Hot Water CMECS Very Warm Water Very Warm Water CMECS Cold Water Cold Water CMECS Cool Water Cool Water CMECS Very Hot Water Very Hot Water CMECS Very Cold Water Very Cold Water CMECS Warm Water Warm Water CMECS Moderate Water Moderate Water CMECS Frozen Water Frozen/Superchilled Water CMECS CMECS Water Component Temperature String 50 0 0 DepthID Unique Sample ID, generally a concatenation of the StationID_Depth BOEM Unique Sample ID, generally a concatenation of the StationID_Depth Depth ID String 20 0 0 Cond_mmho Conductivity (mmho) BOEM Conductivity (mmho) Conductivity (mmho) Double 8 38 8 CDOM CDOM value measured using a fluorometer (RFU) BOEM CDOM value measured using a fluorometer (RFU) Color Dissolved Organic Matter Double 8 38 8 Depth Depth (ft) BOEM Depth (ft) Depth (ft) Double 8 38 8 Temp_C Temperature (Celsius) BOEM Temperature (Celsius) Temperature (Celsius) Double 8 38 8 The Water Results Table is intended to be a record of water quality parameters used to characterize the water column at a particular location at a moment in time. These data provide baseline ambient water quality of the Outer Continental Shelf (OCS) and are used to support a wide variety of ecological and physical models used for planning and management decisions, and also provide a basis for further process-oriented investigations. BOEM Table dataset