Affiliation:
1. Department of Electrical and Computer Engineering University of Washington Seattle WA USA
2. University of Washington School of Oceanography Seattle WA USA
3. Georgia Institute of Technology School of Mechanical Engineering Atlanta GA USA
Abstract
AbstractMeasuring the temperature changes of the deep ocean will be critical to understanding how the earth system will respond to climate change. In this work, we present a method for measuring the depth‐averaged, deep ocean temperature at local (∼3 km) spatial scales using passive estimates of acoustic propagation. These passive acoustic estimates of deep ocean temperature can be used with existing and future passive acoustic monitoring infrastructure to provide complimentary observations of the ocean to in situ measurements, and could be particularly useful in areas of poor ocean observation coverage. Using 8 years of ambient sound data, we demonstrate that the passive estimates agree with global ocean models and measurements by ARGO floats. The rms difference between the HYCOM ocean model is shown to be 0.13°C, and the rms difference between ARGO measurements is shown to be 0.086°C.
Funder
Office of Naval Research
National Science Foundation
Woods Hole Oceanographic Institution
Publisher
American Geophysical Union (AGU)