St. Peter and St. Paul’s Rocks (Equatorial Atlantic) and the surrounding sea floor
MetadataShow full item record
LocationSt. Paul's Rocks
This report gives details on the sampling locations, rock types recovered and bathymetry and morphology of the Islets of St. Paul's Rocks (equatorial Atlantic) and the surrounding sea floor. This work was done during Cruise 35 of R/V Chain, 1963 and Cruise 20 of R/V Atlantis II, 1965.
Suggested CitationThompson, G. (1981). St. Peter and St. Paul’s rocks (Equatorial Atlantic) and the surrounding sea floor. Woods Hole Oceanographic Institution. https://doi.org/10.1575/1912/1515
Showing items related by title, author, creator and subject.
Spatial variability of bottom turbulence over a linear sand ridge mooring deployment and AUTOSUB AUV survey cruise report R/V RRS Challenger, cruise number 146 Broken Bank, North Sea, U.K., 17 – 28 August 1999 cruise report Voulgaris, George; Trowbridge, John H.; Terray, Eugene A. (Woods Hole Oceanographic Institution, 2001-08)Two successful AUTOSUB deployments were carried out during August 1999 as part of the AUTOSUB Thematic Program project titled “Spatial Variability of Bottom Turbulence over a Linear Sand Ridge,” funded by the Natural ...
The Marine light - mixed layer experiment cruise and data report, R/V Endeavor : cruise EN-224, mooring deployment, 27 April-1 May 1991, cruise EN-227, mooring recovery, 5-23 September 1991 Plueddemann, Albert J.; Weller, Robert A.; Dickey, Thomas D.; Marra, John F.; Tupper, George H.; Way, Bryan S.; Ostrom, William M.; Bouchard, Paul R.; Oien, Andrea L.; Galbraith, Nancy R. (Woods Hole Oceanographic Institution, 1993-05)The Marine Light - Mixed Layer experiment took place in the sub-Arctic North Atlantic ocean, approximately 275 miles south of Reykjavik, Iceland. The field program included a central surface mooring to document the temporal ...
The Subduction experiment : cruise report RRS Charles Darwin cruise number 73 subduction 3 mooring deployment and recovery cruise, 30 September-26 October 1992 Trask, Richard P.; Jenkins, William J.; Sherman, Jeffrey; McPhee, Neil M.; Ostrom, William M.; Payne, Richard E. (Woods Hole Oceanographic Institution, 1993-03)Subduction is the mechanism by which water masses formed in the mixed layer and near the surface of the ocean find their way into the upper thermocline. The subduction process and its underlying mechanisms were studied ...