Here’s How we Started Measuring the Oceans from Space
February 8, 1973: Biologist Ellen Weaver creates a sensor package to measure ocean temperature and detect chlorophyll levels. The sensors were loaded onto communications and weather satellites in NASA’s first foray into sea productivity monitoring.
In the early 1970s, NASA put together a team of researchers including legendary explorer Jacques Cousteau, and associate professor at California State University Ellen Weaver. Their task was deceptively simple: figure out how to use satellites for monitoring ocean productivity. The team invented a sensor package to ride on airplanes, monitoring ocean temperatures and chlorophyll levels. Once proven in little patchworks of regional measurements, that same sensor package was loaded onto communication and weather satellites, bringing ocean observation to space.
March 20, 1973: Star-News article on the NASA-Cousteau collaboration.
In direct contrast to current political pressure for NASA to focus on space at the exclusion of Earth observation missions, a 1973 Star-News article describing the collaboration started:
The loudest criticism leveled against the nation’s space program in the last decade is that too much money is spent on projects that have too little value to earthlings.
The same article goes on to describe the mission. While Cousteau roamed the seas providing local updates from his research vessel Calypso, Weaver paired up with NASA Ames’ John Arvesen to analyse the data coming down from thefirst Earth Resources Technology Satellite (ERTS-1), Nimbus, and NOAA weather satellites. They used the ground-truthed data to calibrate their instruments, learning how changes in sea colour could reflect phytoplankton levels and other tricks for remote sensing the ocean’s health.
1972: Prototype subsystem testing for the Nimbus-5 meteorological satellite. The satellite launched on December 10, 1972 and operated until March 29, 1983. Image credit: NASA
NASA’s Earth observing satellites have come a long way in the intervening decades. Now they track everything from carbon distribution to algae blooms, helping us learn about the complex dynamics of our ever-changing world.