Topex/Poseidon data of Pacific Ocean showing El Nino

artist's concept of Topex/Poseidon

marine researcher holds tuna and backdrop of tuna migration map

After a remarkable 13-year voyage of discovery, Topex/Poseidon, the first great oceanographic research vessel to sail into space, ended its mission this month.

Launched in 1992 to make precise measurements of the ocean surface, Topex/Poseidon was watching in 1997 when the largest El Niño in 100 years changed weather patterns around the world. "Topex/Poseidon didn't discover El Niño," says mission scientist Dr. Lee-Lueng Fu, a JPL oceanographer, "but it did give us our first global perspective on this and other short-term climate events such as La Niña. It allowed us to follow their evolution and showed that these events weren't limited just to the tropics. It also gave us evidence of even longer-lasting phenomena."

The mission's most important achievement was to determine the patterns of ocean circulation - how heat stored in the ocean moves from one place to another. Since the ocean holds most of the Earth's heat from the Sun, ocean circulation is a driving force of climate. "Topex/Poseidon has given us the longest and most complete observations of surface circulation in the deep ocean," says Fu. Topex/Poseidon made it possible for the first time to compare computer models of ocean circulation with actual global observations and use the data to improve climate predictions.

Another of the mission's major accomplishments was to map global tides for the first time. "Tides are the most visible changes in the ocean on a daily basis," explains Fu. "They are important for navigation, they have a big role in biological activity, and they are the major source of mixing in the ocean. The mixing may be small in scale, but it has a huge effect." Before Topex/Poseidon, tides in the open ocean could only be estimated.

Topex/Poseidon was the first mission to demonstrate that the Global Positioning System could be used to determine a spacecraft's exact location and track it in orbit. Knowing the satellite's precise position, to within 2 centimeters (less than 1 inch) in altitude, was a key component in making accurate ocean height measurements possible.

"Topex/Poseidon revolutionized oceanography by giving us the first global ocean observing system," says Massachusetts Institute of Technology oceanographer Dr. Carl Wunsch, one the mission's architects and early champions. Oceanographer Dr. Walter Munk, Scripps Institution of Oceanography, described the joint U.S. and French mission as "the most successful ocean experiment of all times."

The ocean is a different place now than it was when Topex/Poseidon first set sail. The sea is warmer than it was and getting warmer faster. Global sea level is rising. Heat in the tropics is moving northward more slowly. In some regions, some currents are faster while others are slower than in the past.

"The biggest lesson from Topex/Poseidon is that the ocean is changing all the time," says Fu, "and it is changing rapidly."

Jason, launched in 2001, now continues the same observations begun by Topex/Poseidon. For the past three years, the two satellites have flown in tandem, providing twice the coverage of the sea surface and allowing scientists to study smaller features than could be seen by one satellite. A future mission, the Ocean Surface Topography Mission, is planned for 2008. After that, scientists propose to make more detailed measurements of ocean surface topography to study critical issues such as sea level rise.

Media Contact

Written by Rosemary Sullivant

Media contact: Alan Buis/JPL