Originally published at NOAA Research
NOAA’s hurricane gliders are heading to sea this week off the coasts of Puerto Rico, the Gulf of Mexico and the eastern U.S. to collect data that scientists will use to improve the accuracy of hurricane forecast models.
NOAA and partner scientists will deploy unmanned gliders equipped with sensors to measure temperature and salinity down to a half mile below the ocean surface. These sturdy gliders can operate in hurricane conditions and have survived shark attacks as they collect data and transmit it via satellite for use in hurricane forecast models.
For the 2020 hurricane season, NOAA, the U.S. Navy, the U.S. Integrated Ocean Observing System (IOOS®), and academic partners are deploying 30 gliders, which are expected to transmit 50% more data points from the ocean, called ocean observations, compared to previous years. This is possible with more gliders as well as increased collaboration among the partners.
To prepare, NOAA’s Atlantic Oceanographic and Meteorological Lab scientists trained new glider pilots and technicians from partner institutions in Puerto Rico and the Dominican Republic and they then prepped members of the CARICOOS and ANAMAR ocean glider teams. In April, NOAA and IOOS hosted an online workshop with the partners to plan glider deployments in the tropical North Atlantic Ocean, Caribbean Sea, South and Mid- Atlantic Ocean, and Gulf of Mexico, for tropical cyclone studies and forecasts. This preparation is helping NOAA and its partners continue the hurricane glider project despite uncertainties related to COVID-19.
The hurricane gliders will collect data in the upper ocean where the Gulf Stream, Loop Current, inflowing fresh water from rivers, and other features can play a role in the strengthening or weakening of hurricanes. The gliders are significantly increasing the observations from these key areas where hurricanes form. Last year, ocean gliders collected approximately 100,000 ocean profiles. This year, scientists expect to collect up to 50% more observations.
Recent research at AOML is showing that this data from gliders and floats are key to improving the accuracy of hurricane intensity forecasts. The data pinpoints where warm water pools at the surface can feed and increase the intensity of passing tropical storms or where cool, saltier water churned up from the deeper ocean may help weaken a passing storm.
This hurricane glider project will also help meet the objectives of the Commercial Engagement Through Ocean Technology Act of 2018, which requires NOAA to coordinate research, assessment, and acquisition of unmanned maritime systems with the U.S. Navy, other federal agencies, industry and academia.
Q & A video: All about ocean gliders with Diego Ugaz
NOAA AOML Website: Hurricane Glider Project
For more information, please contact Erica Rule at NOAA AOML at firstname.lastname@example.org or Monica Allen, NOAA Communications at email@example.com