Shoreline mapping vector data in regions along Canada's east coast, based on low-altitude helicopter videography in support of environmental emergency preparedness efforts

Shoreline mapping vector data in regions along Canada's east coast, based on low-altitude helicopter videography in support of environmental emergency preparedness efforts With the changing climate conditions, marine traffic along Canada’s coastal regions has increased over the past few decades and the need to improve our state of preparedness for oil-spill-related emergencies is critical. Baseline coastal information, such as shoreline form, substrate, and vegetation type, is required for prioritizing operations, coordinating onsite spill response activities (i.e., Shoreline Cleanup Assessment Technique [SCAT]), and providing information for wildlife and ecosystem management. Between 2011 and 2016, georeferenced high-definition videography and photos were collected for various study sites along the east coast. The study areas include Labrador, Bay of Fundy and Chedabucto Bay in Atlantic Canada. Data was collected during ice-free and low tide conditions (where applicable) between July and September. Low-altitude helicopter surveys were conducted at each study site to capture video of the shoreline characteristics. In addition to acquiring videography, ground-based observations were recorded in several locations for validation. Shoreline segmentation was then carried out by manual interpretation of the oblique videography and the photos aided by ancillary data. This involved splitting and classifying the shoreline vectors based on homogeneity of the upper intertidal zone. Detailed geomorphological information (i.e., shoreline type, substrate, slope, height, accessibility etc.) describing the upper intertidal, lower intertidal, supratidal and backshore zones was extracted from the video and entered into a geospatial database using a customized data collection form. In addition, biological characteristics like biobands, water features, fauna, human use etc. observed along the coast were recorded. The data was also validated through ground observations (when available) and a second interpreter QA (quality analysis) was performed on each dataset to ensure high quality and consistency. The final dataset contains segments ranging in length from 150 metres to 2500 metres. In total, from 2011 to 2016, within the 3 study sites, about 1,850 km of shoreline were mapped. 2022-10-13 Environment and Climate Change Canada jon.pasher@ec.gc.ca Nature and EnvironmentAssess Status of SpeciesProtect Species Well-BeingEnvironmental emergenciesEnvironmental protection View ECCC Data Mart (English)HTML https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/shoreline-mapping-vector-data-in-regions-along-canada-s-north-coast-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/?lang=en View ECCC Data Mart (French)HTML https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/shoreline-mapping-vector-data-in-regions-along-canada-s-east-coast-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/?lang=fr FGDB_MappedEastCoast_CoteEstCartographiee.gdb.zipZIP https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/shoreline-mapping-vector-data-in-regions-along-canada-s-east-coast-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/FGDB_MappedEastCoast_CoteEstCartographiee.gdb.zip FGDB_FieldNamesDefinitions.pdfPDF https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/FGDB_FieldNamesDefinitions.pdf FGDB_Noms et définitions des champs.pdfPDF https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/FGDB_Noms%20et%20d%C3%A9finitions%20des%20champs.pdf SHP_MappedEastCoast_CoteEstCartographiee.zipZIP https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/shoreline-mapping-vector-data-in-regions-along-canada-s-east-coast-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/SHP_MappedEastCoast_CoteEstCartographiee.zip SHP_FieldNamesDefinitions.pdfPDF https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/SHP_FieldNamesDefinitions.pdf SHP_Noms et définitions des champs.pdfPDF https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/SHP_Noms%20et%20d%C3%A9finitions%20des%20champs.pdf Symbology_Symbologie.pdfPDF https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/Symbology.pdf Symbology_Symbologie.jpgJPG https://data.ec.gc.ca/data/species/protectrestore/shoreline-mapping-vector-data-in-regions-along-canada-s-east-west-and-north-coasts-based-on-low-altitude-helicopter-videography-in-support-of-environmental-emergency-preparedness-efforts/Symbology.jpg East Coast Shoreline Segmentation-Upper Intertidal (UI) SCAT ClassWMS https://maps-cartes.ec.gc.ca/arcgis/services/DMS/Shoreline_Mapping_Vector_Data/MapServer/WMSServer?request=GetCapabilities&service=WMS&layers=3 East Coast Shoreline Segmentation-Upper Intertidal (UI) SCAT ClassWMS https://maps-cartes.ec.gc.ca/arcgis/services/DMS/Cartographie_du_littoral/MapServer/WMSServer?request=GetCapabilities&service=WMS&layers=3 East Coast Shoreline Segmentation-Upper Intertidal (UI) SCAT ClassESRI REST https://maps-cartes.ec.gc.ca/arcgis/rest/services/DMS/Shoreline_Mapping_Vector_Data/MapServer/20 East Coast Shoreline Segmentation-Upper Intertidal (UI) SCAT ClassESRI REST https://maps-cartes.ec.gc.ca/arcgis/rest/services/DMS/Cartographie_du_littoral/MapServer/25

With the changing climate conditions, marine traffic along Canada’s coastal regions has increased over the past few decades and the need to improve our state of preparedness for oil-spill-related emergencies is critical. Baseline coastal information, such as shoreline form, substrate, and vegetation type, is required for prioritizing operations, coordinating onsite spill response activities (i.e., Shoreline Cleanup Assessment Technique [SCAT]), and providing information for wildlife and ecosystem management.

Between 2011 and 2016, georeferenced high-definition videography and photos were collected for various study sites along the east coast. The study areas include Labrador, Bay of Fundy and Chedabucto Bay in Atlantic Canada.

Data was collected during ice-free and low tide conditions (where applicable) between July and September. Low-altitude helicopter surveys were conducted at each study site to capture video of the shoreline characteristics. In addition to acquiring videography, ground-based observations were recorded in several locations for validation.

Shoreline segmentation was then carried out by manual interpretation of the oblique videography and the photos aided by ancillary data. This involved splitting and classifying the shoreline vectors based on homogeneity of the upper intertidal zone. Detailed geomorphological information (i.e., shoreline type, substrate, slope, height, accessibility etc.) describing the upper intertidal, lower intertidal, supratidal and backshore zones was extracted from the video and entered into a geospatial database using a customized data collection form. In addition, biological characteristics like biobands, water features, fauna, human use etc. observed along the coast were recorded.

The data was also validated through ground observations (when available) and a second interpreter QA (quality analysis) was performed on each dataset to ensure high quality and consistency.

The final dataset contains segments ranging in length from 150 metres to 2500 metres. In total, from 2011 to 2016, within the 3 study sites, about 1,850 km of shoreline were mapped.

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Contact Information

Delivery Point: National Wildlife Research Centre,1125 Colonel By Drive

City: Ottawa

Administrative Area: Ontario

Postal Code: K1S 5B6

Country: Canada

Electronic Mail Address: jon.pasher@ec.gc.ca

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