NASA's Jet Propulsion Laboratories Examine Greenland's Melting Coastal Glaciers Using Teledyne Marine APEX Profiling Floats

12/12/2020


Teledyne Marine announced the recent sale and deployment of three APEX profiling floats to NASA's Jet Propulsion Laboratory in Southern California. The three floats were equipped with RBR CTD sensors, Short-Burst-Data for communication over the Iridium Satellite Network, and special parachutes for air deployment.  

The rise in global sea levels will be a major environmental challenge for the 21st Century. For this reason, it is of increasing importance that we improve our methods and understanding for predicting this process. A recent major initiative to do this has been led by JPL Scientist, Dr. Josh Willis and his team, who are studying the role that the ocean plays in melting Greenland's coastal glaciers. The NASA based initiative, known as 'Oceans Melting Greenland' (OMG), will observe changing water conditions on the continental shelf surrounding Greenland over a six year period. This will also include detailed measurements from the narrow fjords that dot the Greenland coast since these fjords are a critical component in modelling the interaction between the ocean water and the glacial ice.

A potential new tool in this study has been provided by Teledyne Marine in the form of the 'Autonomous Profiling Explorer' (APEX) float. These floats provide a platform for a variety of sensors, drifting with the ocean current while descending and ascending between the surface and some predefined depth, and all the time taking sensor measurements which are then telemetered back to a data-server via satellite. APEX floats can also be deployed by aircraft using parachutes, which makes them ideal for exploring areas that can be difficult to access such as the coast of Greenland.

In September of 2020, three APEX floats were deployed using a Basler DC-3 TurboProp aircraft over the continental shelf along the west coast of Greenland as part of the OMG project. These floats had the specific task of measuring water temperature and salinity at different depths on the continental shelf along the coast over a period of a year or more. Dr. Willis and the team at JPL NASA exploited the fact that APEX floats can be configured to sit on the seabed between descending and ascending, which can be used to limit the distances that the floats drift during each cycle. The floats were also configured to avoid attempting to surface when they detected the possibility of ice.

All three floats have stayed within about 15 miles of where they were deployed, meaning that the strategy of parking them on the sea floor has largely worked so far. One float, deployed in Melville Bay was initially unable to surface and transmit data in the ice covered environment, but was finally able to connect to the Iridium satellite system and transmit all data that that had been collected and stored up to that point.

Now that the floats are operational they could potentially continue transmitting data over a winter season or more. For example, in order to extend their lifetime, the profiling cycle times between surfacings has already been increased using commands sent via satellite. Also, with winter approaching in the northern hemisphere, the APEX float ice avoidance feature will become even more important. However, the data collected by these floats should provide important future input for studying the role that the ocean plays in melting coastal glaciers and raising overall sea levels.

 

The APEX (Autonomous Profiling Explorer) profiling float is an autonomous drifting profiler that acquires water column profile data, such as water conductivity, temperature and pressure, while ascending from a depth of up to 2000 meters. The APEX profiling float also includes the hardware and firmware to support a high level of operator flexibility and multiple functions.

 

ABOUT TELEDYNE WEBB RESEARCH

Teledyne Webb Research designs and manufactures scientific instruments for oceanographic research and monitoring with a focus on extended observations over both time and space. Teledyne Webb Research specializes in three areas of ocean instrumentation: Neutrally buoyant, autonomous drifters and profilers, autonomous underwater gliding vehicles, and moored underwater sound sources. These systems are core to several major ocean monitoring programs including the international Argo array, the National Science Foundation Ocean Observatories Initiative and the U.S. Navy Littoral Battlespace Sensing – Glider (LBS-G) program of record. A Teledyne Webb Research Slocum glider, the Scarlet Knight, was the first unmanned vehicle to cross an ocean. To learn more, visit www.webbresearch.com

ABOUT TELEDYNE MARINE

Teledyne Marine is a group of leading-edge subsea technology companies that are part of Teledyne Technologies Incorporated. Through acquisitions and collaboration over the past ten years, Teledyne Marine has evolved into an industry powerhouse, bringing Imaging, Instruments, Interconnect, Seismic, and Vehicle technology together to provide total solutions to our customers. Each Teledyne Marine company is a leader in its respective field, with a shared commitment to providing premium products backed by unparalleled service and support. www.teledynemarine.com