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Album caption: Cape Hatteras. Oblique aerial view showing beach nourishment activity. Dare County, North Carolina. 1974. Portion published as figure 51-B, U.S. Geological Survey Professional paper 1177-B (1986). Notes on album caption: None. Index card: Dolan, R. 31 - Cape Hatteras. Oblique aerial view showing artifical beach nourishment. Lighthouse visible in background. The Outer Banks of North Carolina. Dare County, North Carolina, 1974. Published as figure 51-B in U.S. Geological Survey Professional paper 1177-B (1986), The Outer Banks of North Carolina. Description of Figure 51B, page 30, in U.S. Geological Survey Professional paper 1177-B (1986): ..."artifical beach nourishment has long been considered...
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Cape Hatteras National Seashore, North Carolina. Large crescentic landforms at Cape Hatteras. Photo courtesy of NASA. Figure 30-A, U.S. Geological Survey Professional paper 1177-B.
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This data release presents structure-from-motion (SFM) products derived from aerial imagery surveys with precise Global Navigation Satellite System (GNSS) navigation data flown in a piloted fixed wing aircraft taken along the North Carolina coast in response to Hurricane Florence (available here https://coastal.er.usgs.gov/data-release/doi-P91KB9SF/). USGS researchers use the elevation models and orthorectified imagery to assess future coastal vulnerability, nesting habitats for wildlife, and provide data for hurricane impact models. The products span the coast over both highly developed towns and natural areas, including federal lands. These products represent the coast after Hurricane Florence and cover the Cape...
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Cape Hatteras National Seashore, North Carolina. Overwash at Cape Hatteras. 1962. Figure 40, U.S. Geological Survey Professional paper 1177-B.
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Cape Hatteras National Seashore, North Carolina. Overwash fans north of Cape Hatteras. 1972. Figure 56, U.S. Geological Survey Professional paper 1177-B.
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Cape Hatteras National Seashore, North Carolina. Overwash (mark) at Cape Hatteras. Houses, beach, and surf in the foreground. 1962. Figure 40, U.S. Geological Survey Professional paper 1177-B.
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Cape Hatteras National Seashore, North Carolina. Cape Hatteras Lighthouse and buildings. Pre-1910. See also photo hja00046.
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Cape Hatteras National Seashore, North Carolina. Oregon Inlet and Bonner Bridge. 1971. Figure 52-A, U.S. Geological Survey Professional paper 1177-B.
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Understanding how sea-level rise will affect coastal landforms and the species and habitats they support is critical for crafting approaches that balance the needs of humans and native species. Given this increasing need to forecast sea-level rise effects on barrier islands in the near and long terms, we are developing Bayesian networks to evaluate and to forecast the cascading effects of sea-level rise on shoreline change, barrier island state, and piping plover habitat availability. We use publicly available data products, such as lidar, orthophotography, and geomorphic feature sets derived from those, to extract metrics of barrier island characteristics at consistent sampling distances. The metrics are then incorporated...
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This data release presents structure-from-motion (SFM) products derived from aerial imagery surveys with precise Global Navigation Satellite System (GNSS) navigation data flown in a piloted fixed wing aircraft taken along the North Carolina coast in response to Hurricane Florence (available here https://coastal.er.usgs.gov/data-release/doi-P91KB9SF/). USGS researchers use the elevation models and orthorectified imagery to assess future coastal vulnerability, nesting habitats for wildlife, and provide data for hurricane impact models. The products span the coast over both highly developed towns and natural areas, including federal lands. These products represent the coast after Hurricane Florence and cover the Cape...
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Cape Hatteras National Seashore, North Carolina. Pattern of storm-surge penetration along Hatteras Island. Photo by U.S. Army. Figure 32, U.S. Geological Survey Professional paper 1177-B.
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Cape Hatteras National Seashore, North Carolina. Core Banks (stabilized). The difference in beach widths can be seen in this photo and photo dr000017. 1971. Figure 59-B, U.S. Geological Survey Professional paper 1177-B.
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Cape Hatteras National Seashore, North Carolina. Hatteras Island (stabilized). The difference in beach widths can be seen this photo and photo dr000018. 1971. Figure 59-A, U.S. Geological Survey Professional paper 1177-B.
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Cape Hatteras National Seashore, North Carolina. Serious losses of property near Cape Hatteras caused by shoreline recession and storm tides. Figure 33, U.S. Geological Survey Professional paper 1177-B.
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Understanding how sea-level rise will affect coastal landforms and the species and habitats they support is critical for crafting approaches that balance the needs of humans and native species. Given this increasing need to forecast sea-level rise effects on barrier islands in the near and long terms, we are developing Bayesian networks to evaluate and to forecast the cascading effects of sea-level rise on shoreline change, barrier island state, and piping plover habitat availability. We use publicly available data products, such as lidar, orthophotography, and geomorphic feature sets derived from those, to extract metrics of barrier island characteristics at consistent sampling distances. The metrics are then incorporated...
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Understanding how sea-level rise will affect coastal landforms and the species and habitats they support is critical for crafting approaches that balance the needs of humans and native species. Given this increasing need to forecast sea-level rise effects on barrier islands in the near and long terms, we are developing Bayesian networks to evaluate and to forecast the cascading effects of sea-level rise on shoreline change, barrier island state, and piping plover habitat availability. We use publicly available data products, such as lidar, orthophotography, and geomorphic feature sets derived from those, to extract metrics of barrier island characteristics at consistent sampling distances. The metrics are then incorporated...
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U.S. Geological Survey (USGS) scientists conducted field data collection efforts between March 8th and 25th, 2021 at four sites along coastal North Carolina and South Carolina using high accuracy surveying technologies. The work was initiated as an effort to validate a topobathymetric digital elevation model (TBDEM) produced for the area that was directly impacted by Hurricane Florence in 2018. The goal was to compare the airborne lidar and sonar derived TBDEM to data collected through more traditional means (e.g. Global Navigational Satellite System (GNSS) surveying). In addition, coastal dunes were mapped with ground based lidar (GBL) for computation of dune metrics. The Hurricane Florence TBDEM will support the...
Categories: Data; Tags: 3D Elevation Program, 3DEP, CMHRP, Cape Hatteras National Seashore, CoNED, All tags...
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Cape Hatteras National Seashore, North Carolina. The concept of transferring sand from offshore shoals to the inshore zone near Cape Hatteras. Sketch on photograph uses a boat to show how waves move along the shore. 1974. Figure 53, U.S. Geological Survey Professional paper 1177-B.
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Cape Hatteras National Seashore, North Carolina. Pattern of overwash and storm-surge penetration near Cape Hatteras. Circa 1984. Portion of Figure 15, U.S. Geological Survey Professional paper 1177-B.


map background search result map search result map Cape Hatteras National Seashore, North Carolina. Large crescentic landforms at Cape Hatteras. Cape Hatteras National Seashore, North Carolina. Pattern of overwash and storm-surge penetration near Cape Hatteras. Cape Hatteras National Seashore, North Carolina. Oregon Inlet and Bonner Bridge. 1971. Figure 52-A, U.S. Geological Survey Professional paper 1177-B. Cape Hatteras National Seashore, North Carolina. Hatteras Island (stabilized). The difference in beach widths can be seen this photo and photo dr000018. Cape Hatteras National Seashore, North Carolina. Core Banks (stabilized). The difference in beach widths can be seen in this photo and photo dr000017. Cape Hatteras National Seashore, North Carolina. Pattern of storm-surge penetration along Hatteras Island. Cape Hatteras National Seashore, North Carolina. Serious losses of property near Cape Hatteras caused by shoreline recession and storm tides. Cape Hatteras National Seashore, North Carolina. Overwash (mark) at Cape Hatteras. Houses, beach, and surf in the foreground. Cape Hatteras National Seashore, North Carolina. Overwash at Cape Hatteras. 1962. Figure 40, U.S. Geological Survey Professional paper 1177-B. Beach nourishment activity, Cape Hatteras, Dare County, North Carolina. 1974. The concept of transferring sand from offshore shoals to the inshore zone near Cape Hatteras. North Carolina. 1974. Cape Hatteras National Seashore, North Carolina. Overwash fans north of Cape Hatteras. 1972. Figure 56, U.S. Geological Survey Professional paper 1177-B. Cape Hatteras National Seashore, North Carolina. Cape Hatteras Lighthouse and buildings. Pre-1910. Cape Hatteras National Seashore, North Carolina. Cape Hatteras Lighthouse and buildings. Pre-1910. DCpts, DTpts, SLpts: Dune crest, dune toe, and mean high water shoreline positions: Cape Hatteras, NC, 2014 shoreline, inletLines: Shoreline polygons and tidal inlet delineations: Cape Hatteras, NC, 2014 SupClas, GeoSet, SubType, VegDen, VegType: Categorical landcover rasters of landcover, geomorphic setting, substrate type, vegetation density, and vegetation type: Cape Hatteras, NC, 2014 Post-Hurricane Florence RGB averaged orthoimagery of coastal North Carolina Post-Hurricane Florence Digital Elevation Models of coastal North Carolina Coastal Carolinas Topobathymetric Model: Field Validation Data, 2021 DCpts, DTpts, SLpts: Dune crest, dune toe, and mean high water shoreline positions: Cape Hatteras, NC, 2014 shoreline, inletLines: Shoreline polygons and tidal inlet delineations: Cape Hatteras, NC, 2014 SupClas, GeoSet, SubType, VegDen, VegType: Categorical landcover rasters of landcover, geomorphic setting, substrate type, vegetation density, and vegetation type: Cape Hatteras, NC, 2014 Cape Hatteras National Seashore, North Carolina. Large crescentic landforms at Cape Hatteras. Cape Hatteras National Seashore, North Carolina. Pattern of overwash and storm-surge penetration near Cape Hatteras. Cape Hatteras National Seashore, North Carolina. Oregon Inlet and Bonner Bridge. 1971. Figure 52-A, U.S. Geological Survey Professional paper 1177-B. Cape Hatteras National Seashore, North Carolina. Hatteras Island (stabilized). The difference in beach widths can be seen this photo and photo dr000018. Cape Hatteras National Seashore, North Carolina. Core Banks (stabilized). The difference in beach widths can be seen in this photo and photo dr000017. Cape Hatteras National Seashore, North Carolina. Pattern of storm-surge penetration along Hatteras Island. Cape Hatteras National Seashore, North Carolina. Serious losses of property near Cape Hatteras caused by shoreline recession and storm tides. Cape Hatteras National Seashore, North Carolina. Overwash (mark) at Cape Hatteras. Houses, beach, and surf in the foreground. Cape Hatteras National Seashore, North Carolina. Overwash at Cape Hatteras. 1962. Figure 40, U.S. Geological Survey Professional paper 1177-B. Beach nourishment activity, Cape Hatteras, Dare County, North Carolina. 1974. The concept of transferring sand from offshore shoals to the inshore zone near Cape Hatteras. North Carolina. 1974. Cape Hatteras National Seashore, North Carolina. Overwash fans north of Cape Hatteras. 1972. Figure 56, U.S. Geological Survey Professional paper 1177-B. Cape Hatteras National Seashore, North Carolina. Cape Hatteras Lighthouse and buildings. Pre-1910. Cape Hatteras National Seashore, North Carolina. Cape Hatteras Lighthouse and buildings. Pre-1910. Coastal Carolinas Topobathymetric Model: Field Validation Data, 2021 Post-Hurricane Florence Digital Elevation Models of coastal North Carolina Post-Hurricane Florence RGB averaged orthoimagery of coastal North Carolina