National Oceanic and
Atmospheric Administration
United States Department of Commerce

Saildrone Research Mission Launched to Improve Tropical Observing System in eastern Pacific Ocean

July 26, 2021
orange sailing drone in on the water with some waves sailing in front of San Francisco bluffs

Saildrone departing Alameda, CA  to study hurricane genesis and ENSO in eastern Pacific Ocean. Photo Credit: Saildrone, Inc. 

July 26, 2021

As the western U.S. experiences record shattering heat waves, mega droughts and the eastern tropical Pacific started its 2021 hurricane season with the earliest tropical storm (Andres) on record going back to the early 1970s, two Uncrewed Surface Vehicle (USV) saildrones were launched on July 23, 2021 from Alameda, CA on a research mission to the eastern tropical Pacific.

The eastern tropical Pacific is a key region for hurricane genesis and El Niño Southern Oscillation (ENSO) development. The ENSO cycle not only modulates hurricane genesis in the eastern tropical Pacific and the tropical Atlantic, but also affects the global marine ecosystem and weather patterns on land. The hurricanes and tropical cyclones generated in the eastern tropical Pacific, whether or not they make landfall, control the critical source of moisture for rainfall, especially over western North America.

This region, however, is a gap in the Tropical Pacific Observing System (TPOS). The two saildrones enroute to the eastern tropical Pacific, will test how USVs may be used to address gaps in the present TPOS. The 150-day mission will target several phenomena including:

  1. Air-sea interactions and convective development in the eastern Pacific hurricane genesis region
  2. Air-sea interactions, including carbon dioxide outgassing, in the equatorial upwelling zone
  3. Wind convergence in the southeastern Inter-Tropical Convergence Zone (ITCZ) between 2°S and 5°S, often referred to as “the double ITCZ” region due to common biases of this phenomenon in models
  4. Air-sea interactions in the frontal zone north of the cold equatorial upwelling; and
  5. Contrasting subtropical and tropical oceanic and atmospheric states in the eastern Pacific.

The mission is funded in part by NOAA Office of Marine and Aviation Operations (OMAO), NOAA Global Ocean Monitoring and Observing Program (GOMO), and NOAA National Oceanographic Partnership Program (NOPP) bringing together partners across NOAA, universities, and industry, along with international partners from Mexico and France. Read more about the mission on PMEL's Ocean Climate Stations page