{ "currentVersion": 11.3, "serviceDescription": "

In 2014, the Marine Geospatial Ecology Lab (MGEL) of Duke University began work with the Northeast Regional Ocean Council (NROC), the NOAA National Centers for Coastal Ocean Science (NCCOS), the NOAA Northeast Fisheries Science Center (NEFSC) and Loyola University Chicago, as part of the Marine-life Data and Analysis Team (MDAT), to characterize and map marine life in the Northeast region in support of the Regional Ocean Plan. In 2015, the Mid-Atlantic Regional Council on the Ocean (MARCO) contracted with MDAT to build upon and expand this effort into the Mid-Atlantic planning area, and in support of the Mid-Atlantic Regional Ocean Plan. These research groups collaborated to produce \u201cbase layer\u201d predictive model products with associated uncertainty products for cetacean species or species guilds and avian species, and three geospatial products for fish species. Periodic updates to these base layer models and data are produced by the individual institutions in the MDAT team based on schedules set by the funders of each modeling effort.<\/span><\/p>

<\/p>

MDAT member NCCOS developed a comprehensive synthesis of models and data on marine and coastal birds as part of a 5-year BOEM funded project \u201cIntegrative Statistical Modeling and Predictive Mapping of Marine Bird Distributions and Abundance on the Atlantic Outer Continental Shelf.\u201d In 2017, NCCOS updated the source data, covariates, and modeling methodology to produce new models, including additional species. <\/span><\/p>

<\/p>

The NOAA report and the full set of model products for this project can be found here: <\/span><\/span><\/p>

https://coastalscience.noaa.gov/project/statistical-modeling-marine-bird-distributions/<\/span><\/p>

<\/p>

MDAT compiled the NCCOS long-term average density model results, with two products characterizing model uncertainty. The individual species maps represent the results of predictive modeling applied to data from the Northwest Atlantic Seabird Catalog (US Fish and Wildlife Service) and the Eastern Canada Seabirds at Sea database (Canadian Wildlife Service, Environment and Climate Change Canada). The modeling framework enabled predictions beginning 1-2km offshore and extending to the US EEZ boundary along the entire US Atlantic coast. As a result, model predictions are not available for nearshore (0-2km) areas, embayments, or estuaries, such as Long Island Sound. <\/span><\/p>

<\/p>

Density model results are the long-term average relative abundance of individuals per unit area. It is not possible to infer absolute density because of how the survey data were collected and compiled, and how the models were generated. <\/span><\/p>

<\/p>

Relative density model results are predicted to the full extent of the study area, and a hatched mask delineating areas with no survey effort in the dataset is provided. Mid-points of survey transect segments (~4 km in length) were gridded at a 10 x 10 km resolution, and hatched areas indicate grid cells with no segment mid-points (i.e. minimal or no survey effort). Model results in these hatched areas should be interpreted with caution. See Winship et al. (2018) Section 2 for more details.<\/span><\/p>

The 90% Confidence Interval and the Coefficient of Variation are provided as two statistical measures of model uncertainty.<\/span><\/p><\/div><\/div><\/div>", "name": "MDAT_MDAT_LETE_annual_bootstrap_abundance_QUANT_50", "description": "

In 2014, the Marine Geospatial Ecology Lab (MGEL) of Duke University began work with the Northeast Regional Ocean Council (NROC), the NOAA National Centers for Coastal Ocean Science (NCCOS), the NOAA Northeast Fisheries Science Center (NEFSC) and Loyola University Chicago, as part of the Marine-life Data and Analysis Team (MDAT), to characterize and map marine life in the Northeast region in support of the Regional Ocean Plan. In 2015, the Mid-Atlantic Regional Council on the Ocean (MARCO) contracted with MDAT to build upon and expand this effort into the Mid-Atlantic planning area, and in support of the Mid-Atlantic Regional Ocean Plan. These research groups collaborated to produce \u201cbase layer\u201d predictive model products with associated uncertainty products for cetacean species or species guilds and avian species, and three geospatial products for fish species. Periodic updates to these base layer models and data are produced by the individual institutions in the MDAT team based on schedules set by the funders of each modeling effort.<\/span><\/p>

<\/p>

MDAT member NCCOS developed a comprehensive synthesis of models and data on marine and coastal birds as part of a 5-year BOEM funded project \u201cIntegrative Statistical Modeling and Predictive Mapping of Marine Bird Distributions and Abundance on the Atlantic Outer Continental Shelf.\u201d In 2017, NCCOS updated the source data, covariates, and modeling methodology to produce new models, including additional species. <\/span><\/p>

<\/p>

The NOAA report and the full set of model products for this project can be found here: <\/span><\/span><\/p>

https://coastalscience.noaa.gov/project/statistical-modeling-marine-bird-distributions/<\/span><\/p>

<\/p>

MDAT compiled the NCCOS long-term average density model results, with two products characterizing model uncertainty. The individual species maps represent the results of predictive modeling applied to data from the Northwest Atlantic Seabird Catalog (US Fish and Wildlife Service) and the Eastern Canada Seabirds at Sea database (Canadian Wildlife Service, Environment and Climate Change Canada). The modeling framework enabled predictions beginning 1-2km offshore and extending to the US EEZ boundary along the entire US Atlantic coast. As a result, model predictions are not available for nearshore (0-2km) areas, embayments, or estuaries, such as Long Island Sound. <\/span><\/p>

<\/p>

Density model results are the long-term average relative abundance of individuals per unit area. It is not possible to infer absolute density because of how the survey data were collected and compiled, and how the models were generated. <\/span><\/p>

<\/p>

Relative density model results are predicted to the full extent of the study area, and a hatched mask delineating areas with no survey effort in the dataset is provided. Mid-points of survey transect segments (~4 km in length) were gridded at a 10 x 10 km resolution, and hatched areas indicate grid cells with no segment mid-points (i.e. minimal or no survey effort). Model results in these hatched areas should be interpreted with caution. See Winship et al. (2018) Section 2 for more details.<\/span><\/p>

The 90% Confidence Interval and the Coefficient of Variation are provided as two statistical measures of model uncertainty.<\/span><\/p><\/div><\/div><\/div>", "extent": { "xmin": -9686829.441403512, "ymin": 2639234.9624859206, "xmax": -5818829.441403506, "ymax": 7039234.962485921, "spatialReference": { "wkid": 102100, "latestWkid": 3857 } }, "initialExtent": { "xmin": -9686829.441403512, "ymin": 2639234.9624859206, "xmax": -5818829.441403506, "ymax": 7039234.962485921, "spatialReference": { "wkid": 102100, "latestWkid": 3857 } }, "fullExtent": { "xmin": -9686829.441403512, "ymin": 2639234.9624859206, "xmax": -5818829.441403506, "ymax": 7039234.962485921, "spatialReference": { "wkid": 102100, "latestWkid": 3857 } }, "sortableFields": "", "bandCount": 1, "pixelType": "F64", "minValues": [ 1.2449808127712458E-4 ], "maxValues": [ 0.32872334122657776 ], "meanValues": [ 0.002434241923336823 ], "stdvValues": [ 0.011140050474412015 ], "hasMultidimensions": false, "pixelSizeX": 2000.000000000003, "pixelSizeY": 2000, "meanPixelSize": 2000.0000000000014, "datasetFormat": "FGDBR", "uncompressedSize": 34038400, "blockWidth": 128, "blockHeight": 128, "compressionType": "LZ77", "bandNames": [ "Band_1" ], "allowCopy": true, "allowAnalysis": true, "itemAccess": false, "inspectionCapabilities": "", "minPixelSize": 0, "maxPixelSize": 0, "copyrightText": "Principle Investigators:MDAT Project: Patrick N. Halpin (PI) \u2013 Marine Geospatial Ecology Lab at Duke University; Earvin Balderama (Co-I) - Loyola University Chicago; Michael Fogarty (Co-I) - NOAA/NEFSC; Arliss Winship (Co-I) - NOAA/NCCOSNCCOS Project: Arliss J. Winship, Brian P. Kinlan, Timothy P. White, Jeffery B. Leirness, John Christensen \u2013 US DOC; NOAA; NOS; National Centers for Coastal Ocean Science (NCCOS)Collaborators:David Bigger - US DOI, Bureau of Ocean Energy Management (BOEM)Mary Boatman - US DOI, Bureau of Ocean Energy Management (BOEM)James Woehr - US DOI, Bureau of Ocean Energy Management (BOEM)Allan O\u2019Connell - US DOI, United States Geological Survey (USGS)Mark Wimer - US DOI, United States Geological Survey (USGS)Allison Sussman - US DOI, United States Geological Survey (USGS)Tim Jones - US DOI, United States Fish and Wildlife Service (USFWS)Kaycee Coleman - US DOI, United States Fish and Wildlife Service (USFWS)Kyle Detloff - US DOI, United States Fish and Wildlife Service (USFWS)Robert Fowler - US DOI, United States Fish and Wildlife Service (USFWS)Carina Gjerdrum \u2013 Canadian Wildlife Service (CWS), Environment and Climate Change Canada (ECC)Peter Miller \u2013 Plymouth Marine LaboratoryPeter Cornillon \u2013 University of Rhode IslandMichael Coyne - US DOC, NOAA, NOS, National Centers for Coastal Ocean Science (NCCOS) and CSS Inc.Matthew Poti - US DOC, NOAA, NOS, National Centers for Coastal Ocean Science (NCCOS) and CSS Inc.Robert Rankin - US DOC, NOAA, NOS, National Centers for Coastal Ocean Science (NCCOS) and CSS Inc.Zhifa Liu - US DOC, NOAA, NOS, National Centers for Coastal Ocean Science (NCCOS) and GAMA-1 TechnologiesAnd many additional data providers \u2013 listed in Appendix A of Winship et al. 2018 MDAT members:Earvin Balderama (Co-I, Loyola University Chicago)Jesse Cleary (Duke University)Corrie Curtice (Duke University)Michael Fogarty (Co-I, NOAA/NEFSC)Patrick N. Halpin (PI, Duke University)Brian Kinlan (NOAA/NCCOS)Charles Perretti (NOAA/NEFSC)Jason Roberts (Duke University)Emily Shumchenia (NROC)Arliss Winship (Co-I, NOAA/NCCOS)Methodology:See Winship et al. (2018) Section 2: Methods. Pp. 2-11. Datasets are listed in Table 1 of Curtice et al. (2018).MDAT Technical Report:Curtice, C., Cleary J., Shumchenia E., Halpin P.N. 2018. Marine-life Data and Analysis Team (MDAT) technical report on the methods and development of marine-life data to support regional ocean planning and management. Prepared on behalf of the Marine-life Data Analysis Team (MDAT). Accessed at: http://seamap.env.duke.edu/models/MDAT/MDAT-Technical-Report.pdf Corrie Curtice1, Jesse Cleary2, Emily Schumchenia3, Patrick Halpin21 Marine Geospatial Ecology Laboratory, Nicholas School of the Environment, Duke University Marine Lab, Beaufort, NC, US2 Marine Geospatial Ecology Laboratory, Duke University, Durham, NC, US3 Northeast Regional Ocean Council, USAvian Models:NCCOS/BOEM study:Winship, A.J., Kinlan, B.P., White, T.P., Leirness, J.B. and Christensen, J. (2018) Modeling At-Sea Density of Marine Birds to Support Atlantic Marine Renewable Energy Planning: Final Report. U.S. Department of the Interior, Bureau of Ocean Energy Management, Office of Renewable Energy Programs, Sterling, VA. OCS Study BOEM 2018-010. xxx+XXX pp.Arliss J. Winship1,2, Brian P. Kinlan1, Timothy P. White3, Jeffery B. Leirness1,2, John Christensen11 NOAA National Centers for Coastal Ocean Science, Silver Spring, MD, U.S.A.2 CSS, Inc, Fairfax, VA, U.S.A.3 Bureau of Ocean Energy Management, Sterling, VA, U.S.A.Resource Provider:Marine Geospatial Ecology Lab (MGEL) at Duke University (marinelife_data@duke.edu), on behalf of MDAT and NCCOS.", "serviceDataType": "esriImageServiceDataTypeGeneric", "serviceSourceType": "esriImageServiceSourceTypeDataset", "objectIdField": "", "fields": [], "capabilities": "Mensuration,Image,Metadata", "defaultMosaicMethod": "Center", "allowedMosaicMethods": "", "sortField": "", "sortValue": null, "sortAscending": true, "mosaicOperator": "First", "defaultCompressionQuality": 75, "defaultResamplingMethod": "Bilinear", "maxImageHeight": 4100, "maxImageWidth": 15000, "allowRasterFunction": true, "rasterFunctionInfos": [ { "name": "None", "description": "", "help": "" } ], "rasterTypeInfos": [ { "name": "Raster Dataset", "description": "Supports all ArcGIS Raster Datasets", "help": "" } ], "mensurationCapabilities": "Basic", "hasHistograms": true, "hasColormap": false, "hasRasterAttributeTable": false, "minScale": 0, "maxScale": 0, "exportTilesAllowed": false, "supportsStatistics": false, "supportsAdvancedQueries": false, "editFieldsInfo": null, "ownershipBasedAccessControlForRasters": null, "allowComputeTiePoints": false, "useStandardizedQueries": true, "advancedQueryCapabilities": { "useStandardizedQueries": true, "supportsStatistics": false, "supportsOrderBy": false, "supportsDistinct": false, "supportsPagination": false }, "spatialReference": { "wkid": 102100, "latestWkid": 3857 } }