Heat and oxygen exchange at the interface of ocean and atmosphere.

 

Jenessa aboard OSU's vessel the R/V Oceanus during a cruise for a field work course. She is deploying a vertical microstructure profile attached to a large winch: fishing for the big one!

Jenessa aboard OSU’s vessel the R/V Oceanus during a cruise for a field work course. She is deploying a vertical microstructure profile attached to a large winch: fishing for the big one!

As a physical oceanographer in the College of Earth, Ocean, and Atmospheric Sciences, Masters candidate Jenessa Duncombe is investigating how the movement of water impacts heat and oxygen exchange at the interface of the ocean and atmosphere. Combining analytical and modeling approaches in the labs of Roger Samelson and Eric Skyllingstad, Jenessa uses linear stability analysis to predict the circulation of water in the upper 300 feet of the ocean.  Jenessa focuses on regions in the ocean with high rates of ocean and atmosphere exchange; those areas are common throughout the ocean, typically occurring near river mouths, along upwelling regions, or along strong surface currents, like the Gulf Stream. These regions can be thought of as the lungs of the ocean, responsible for the majority of oxygen and carbon dioxide uptake into the ocean. Jenessa’s goal for her research is to improve how surface ocean circulation is accounted for in global climate change models, hopefully making model predictions more accurate.

Satellite sea surface temperature image of the Gulf Stream. The red colors show the warm Gulf Stream waters traveling from the Gulf of Mexico, along the east coast, then traveling out into the Atlantic. Whirlpools of warm and cold water, called eddies, pinch off as the Gulf Stream becomes unstable heading into the Atlantic Ocean. Ocean eddies are (in Jenessa’s opinion) the coolest type of ocean circulation! For a dynamic look at ocean surface currents, check out this video from NASA called Perpetual Ocean. You can see the Gulf Stream and other strong currents, as well as whirlpools of warm and cold water spinning up in the ocean!

Jenessa’s interest in earth science began during middle school with encouragement from an inspirational teacher.  During her undergraduate studies at Wesleyan University in Connecticut, Jenessa decided to major in earth science after becoming acquainted with other earth science majors who shared her interest in hiking. Structural geology and a physics course on the topic of waves and oscillations were among her favorite courses. In particular, waves and oscillations provided insight and clarity into her realization that visual patterns can be described by a mathematical equation. Jenessa cites a summer REU (Research Experiences for Undergraduates) at the University of Maryland through the NSF as a critical introduction to research. During the summer after finishing her undergraduate studies, Jenessa worked at Sandia National Laboratories in New Mexico, acquiring experience in research related to harnessing power generated from wave energy. After finishing her Masters degree, Jenessa plans to pursue a career in science writing.

Tune in on September 25th 2016 at 7PM to hear more from Jenessa about her research related to the movement of water in the ocean and the role it may play in climate change. You can listen on the radio at 88.7FM KBVR Corvallis or by streaming live.

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