Press Room

NOAA teams with Paul G. Allen Philanthropies to expand deep ocean observations

Seattle, WA — Sep 07 2017

New Deep Argo buoys to probe ocean currents that drive weather and climate 

In a groundbreaking public-private partnership, Microsoft co-founder and philanthropist Paul G. Allen and NOAA’s Pacific Marine Environmental Laboratory will deploy a large array of new deep ocean floats to expand ocean observations in a key area of the western South Atlantic Ocean.

These instruments, called Deep Argo floats, can collect data down to nearly four miles deep, and promise to lead scientists to a better understanding of how the bottom half of the ocean may influence long term weather, climate, and sea level rise.

Paul G. Allen Philanthropies has committed more than $4 million for the multi-year project, Jump-Starting Deep Argo. Allen’s research vessel R/V Petrel will deploy an array of these floats in the deep international waters east of Brazil.

“This is NOAA’s first formal public-private partnership for sustained ocean observations,” said acting NOAA Chief Scientist Craig McLean. “We applaud Paul Allen for his visionary investment in long term knowledge to help answer some of Earth’s most challenging questions.”

NOAA chose the western South Atlantic for the array because it provides a window into the global thermohaline circulation, called the great ocean conveyor belt, which is linked to global climate variations. At the bottom of the basin, very cold, dense Antarctic water flows northward while just above, slightly warmer, lighter North Atlantic deep water flows southward. Limited data have shown that the Antarctic water has been warming over the last three decades.

The project expands on the success of Argo, an international array of almost 4,000 freely drifting floats that measure temperature and salinity in the upper 2,000 meters or 1¼ miles of the global ocean. Since 2000, Argo has revolutionized oceanography, providing data publicly in near real-time that are vital for understanding the roles of ocean temperature, salinity, and current variations on weather, climate and ecosystems.

While Argo provides data on the upper half of the ocean volume, Deep Argo floats, which dive to 6,000 meters or 3.7 miles, will probe the less-understood bottom half.

“We’re proud to launch the Deep Argo technology,” said Spencer Reeder, director of climate and energy initiatives for Paul G. Allen Philanthropies. “Paul Allen believes that gathering high-quality oceanographic data is vital to understanding our Earth’s changing climate.”

This new project will be the first comprehensive sampling of an entire deep ocean basin by this technology, which has been previously tested only in small pilot deployments.

“Putting Deep Argo floats in the western South Atlantic is another step toward a global Deep Argo array, which will illuminate key portions of our changing oceans,” said Gregory C. Johnson, an oceanographer at NOAA’s Pacific Marine Environmental Laboratory who will lead the project. “It’s like we’ve had a candle in a dark room and now we’re going to flip on the lamp. We’ll see all the details.”

Researchers from NOAA’s cooperative institutes at the University of Hawaii and University of Washington will contribute to the project.


About Paul G. Allen Philanthropies
Through Paul G. Allen Philanthropies, Paul and his team are tackling some of the world’s hardest problems – from combatting climate change to restoring the health of our oceans to disrupting the cycle of homelessness – through an integrated approach that harness the power of data, cutting-edge technology, policy, and storytelling.

For more information on Mr. Allen’s work, visit

About National Oceanic and Atmospheric Administration
NOAA's mission is to understand and predict changes in the Earth's environment, from the depths of the ocean to the surface of the sun, and to conserve and manage our coastal and marine resources. Join us on Twitter, Facebook, Instagram and our other social media channels.


Please include your outlet and your deadline in the subject line.