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1. Along-Stream Evolution of Gulf Stream Volume Transport

   https://doi.org/10.1175/JPO-D-19-0303.1  

   Heiderich, Joleen; Todd, Robert E. (August 2020, Journal of Physical Oceanography)

   Abstract The Gulf Stream affects global climate by transporting water and heat poleward. The current’s volume transport increases markedly along the U.S. East Coast. An extensive observing program using autonomous underwater gliders provides finescale, subsurface observations of hydrography and velocity spanning more than 15° of latitude along the path of the Gulf Stream, thereby filling a 1500-km-long gap between long-term transport measurements in the Florida Strait and downstream of Cape Hatteras. Here, the glider-based observations are combined with shipboard measurements along Line W near 68°W to provide a detailed picture of the along-stream transport increase. To account for the influences of Gulf Stream curvature and adjacent circulation (e.g., corotating eddies) on transport estimates, upper- and lower-bound transports are constructed for each cross–Gulf Stream transect. The upper-bound estimate for time-averaged volume transport above 1000 m is 32.9 ± 1.2 Sv (1 Sv ≡ 106 m3 s−1) in the Florida Strait, 57.3 ± 1.9 Sv at Cape Hatteras, and 75.6 ± 4.7 Sv at Line W. Corresponding lower-bound estimates are 32.3 ± 1.1 Sv in the Florida Strait, 54.5 ± 1.7 Sv at Cape Hatteras, and 69.9 ± 4.2 Sv at Line W. Using the temperature and salinity observations from gliders and Line W, waters are divided into seven classes to investigate the properties of waters that are transported by and entrained into the Gulf Stream. Most of the increase in overall Gulf Stream volume transport above 1000 m stems from the entrainment of subthermocline waters, including upper Labrador Sea Water and Eighteen Degree Water. 

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2. (2024) Coastal Pioneer Mid-Atlantic Bight Southern Profiler Mooring (CP13SOPM)

   https://doi.org/10.58046/ooi-cp13sopm  

   NSF_Ocean_Observatories_Initiative (January 2024, US NSF Ocean Observatories Initiative)

   The Pioneer MAB Southern Profiler Mooring is located on the Continental Shelf, approximately 100 meters deep. The MAB continental shelf north of Cape Hatteras is characterized by a persistent equator-ward current originating from the north, a shelfbreak front separating shelf and slope waters, distributed buoyancy inputs from rivers, variable wind forcing, and intermittent offshore forcing by Gulf Stream meanders. The Pioneer MAB Array is designed to resolve transport processes and ecosystem dynamics in the vicinity of the shelfbreak front, which is a region of complex oceanographic dynamics, intermittent mesoscale variability, and enhanced biological productivity.\nLike other Coastal Profiler Moorings, the Pioneer MAB Southern Profiler Mooring instruments are mounted on the Surface Buoy, Subsurface Sphere, within the Wire-Following Profiler, and on a frame on the riser wire. The Wire-Following Profiler moves through the water column along the mooring riser, continuously sampling ocean characteristics over a specified depth interval. The instruments communicate with the Surface Buoy through the inductive riser wire. Additionally, the Surface Buoy contains antennas to transmit data to shore via satellite. 

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3. (2024) Coastal Pioneer Mid-Atlantic Bight Southeastern Profiler Mooring (CP14SEPM)

   https://doi.org/10.58046/ooi-cp14sepm  

   NSF_Ocean_Observatories_Initiative (January 2024, US NSF Ocean Observatories Initiative)

   The Pioneer MAB Southeastern Profiler Mooring is located on the Continental Shelf, approximately 300 meters deep. The MAB continental shelf north of Cape Hatteras is characterized by a persistent equator-ward current originating from the north, a shelfbreak front separating shelf and slope waters, distributed buoyancy inputs from rivers, variable wind forcing, and intermittent offshore forcing by Gulf Stream meanders. The Pioneer MAB Array is designed to resolve transport processes and ecosystem dynamics in the vicinity of the shelfbreak front, which is a region of complex oceanographic dynamics, intermittent mesoscale variability, and enhanced biological productivity.\nLike other Coastal Profiler Moorings, the Pioneer MAB Southeastern Profiler Mooring instruments are mounted on the Surface Buoy, Subsurface Sphere, within the Wire-Following Profiler, and on a frame on the riser wire. The Wire-Following Profiler moves through the water column along the mooring riser, continuously sampling ocean characteristics over a specified depth interval. The instruments communicate with the Surface Buoy through the inductive riser wire. Additionally, the Surface Buoy contains antennas to transmit data to shore via satellite. 

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4. (2024) Coastal Pioneer Mid-Atlantic Bight Northeastern Profiler Mooring (CP14NEPM)

   https://doi.org/10.58046/ooi-cp14nepm  

   NSF_Ocean_Observatories_Initiative (January 2024, US NSF Ocean Observatories Initiative)

   The Pioneer MAB Northeastern Profiler Mooring is located on the Continental Shelf, approximately 300 meters deep. The MAB continental shelf north of Cape Hatteras is characterized by a persistent equator-ward current originating from the north, a shelfbreak front separating shelf and slope waters, distributed buoyancy inputs from rivers, variable wind forcing, and intermittent offshore forcing by Gulf Stream meanders. The Pioneer MAB Array is designed to resolve transport processes and ecosystem dynamics in the vicinity of the shelfbreak front, which is a region of complex oceanographic dynamics, intermittent mesoscale variability, and enhanced biological productivity.\nLike other Coastal Profiler Moorings, the Pioneer MAB Northeastern Profiler Mooring instruments are mounted on the Surface Buoy, Subsurface Sphere, within the Wire-Following Profiler, and on a frame on the riser wire. The Wire-Following Profiler moves through the water column along the mooring riser, continuously sampling ocean characteristics over a specified depth interval. The instruments communicate with the Surface Buoy through the inductive riser wire. Additionally, the Surface Buoy contains antennas to transmit data to shore via satellite. 

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5. (2024) Coastal Pioneer Mid-Atlantic Bight Northern Profiler Mooring (CP13NOPM)

   https://doi.org/10.58046/ooi-cp13nopm  

   NSF_Ocean_Observatories_Initiative (January 2024, US NSF Ocean Observatories Initiative)

   The Pioneer MAB Northern Profiler Mooring is located on the Continental Shelf, approximately 100 meters deep. The MAB continental shelf north of Cape Hatteras is characterized by a persistent equator-ward current originating from the north, a shelfbreak front separating shelf and slope waters, distributed buoyancy inputs from rivers, variable wind forcing, and intermittent offshore forcing by Gulf Stream meanders. The Pioneer MAB Array is designed to resolve transport processes and ecosystem dynamics in the vicinity of the shelfbreak front, which is a region of complex oceanographic dynamics, intermittent mesoscale variability, and enhanced biological productivity.\nLike other Coastal Profiler Moorings, the Pioneer MAB Northern Profiler Mooring instruments are mounted on the Surface Buoy, Subsurface Sphere, within the Wire-Following Profiler, and on a frame on the riser wire. The Wire-Following Profiler moves through the water column along the mooring riser, continuously sampling ocean characteristics over a specified depth interval. The instruments communicate with the Surface Buoy through the inductive riser wire. Additionally, the Surface Buoy contains antennas to transmit data to shore via satellite. 

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