Title :
Synoptic, multiseason oceanographic survey of the northern Gulf of California using orbital photographs and ships
Author :
Linda, Loma ; Hendrickson, J.R. ; Haar, Stephen Vonder
Abstract :
A predictive circulation model was formulated from ERTS-1 satellite images and supporting oceanographic cruises. Biannually reversing convection cells driven by heating and cooling of the saline Colorado tidal estuary are curled by the Coriolis effect. These resulting surficial gyres and cross-flowing undercurrents were mapped from photographically enhanced ERTS images. Vertical structure of the water column was measured by repeated ship cruises. Other phenomena too complex or too transient to map with ship data alone were delineated from Gemini, Apollo, Skylab, and ERTS photographs: 1. Internal waves 2. Eddies and upwelling plumes 3. Wind-driven surface layers 4. Cloud lines marking the extent of the sea breeze systems or edges of water masses of different temperatures 5. Orographic indicator of a shoal 6. Tidal phase velocity.
Keywords :
convection; ocean temperature; ocean waves; oceanographic regions; oceanographic techniques; remote sensing; wind; Apollo photographs; Coriolis effect; ERTS photographs; ERTS-1 satellite images; Gemini photographs; Skylab photographs; biannually reversing convection cells; cloud lines; cross flowing undercurrents; eddies; internal waves; northern California gulf; oceanographic cruises; orbital photographs; predictive circulation model; saline Colorado tidal estuary cooling; saline Colorado tidal estuary heating; sea breeze system extent; shoal orographic indicator; surficial gyres; synoptic multiseason oceanographic survey; tidal phase velocity; upwelling plumes; water column vertical structure; water temperatures; wind driven surface layers; Clouds; Cooling; Extraterrestrial measurements; Heating; Marine vehicles; Ocean temperature; Predictive models; Satellites; Sea measurements; Sea surface;
Conference_Titel :
OCEAN 75 Conference
Conference_Location :
San Diego, CA
DOI :
10.1109/OCEANS.1975.1154023
