Salt fingering is a mixing process, example of double diffusive instability, that occurs when relatively warm, salty water overlies relatively colder, fresher water. It is driven by the fact that heated water diffuses more readily than salty water. A small parcel of warm, salty water sinking downwards into a colder, fresher region will lose its heat before losing its salt, making the parcel of water increasingly denser than the water around it and sinking further. Likewise, a small parcel of colder, fresher water will be displaced upwards and gain heat by diffusion from surrounding water, which will then make it lighter than the surrounding waters, and cause it to rise further. Paradoxically, the fact that salinity diffuses less readily than temperature means that salinity mixes more efficiently than temperature due to the turbulence caused by salt fingers. Salt fingering was first described mathematically by Professor Melvin Stern of Florida State University in 1960 and important field measurements of the process have been made by Raymond Schmitt of the

Woods Hole Oceanographic Institution The Woods Hole Oceanographic Institution (WHOI, acronym pronounced ) is a private, nonprofit research and higher education facility dedicated to the study of marine science and engineering. Established in 1930 in Woods Hole, Massachusetts, it ...

and Mike Gregg and Eric Kunze of the

University of Washington, Seattle The University of Washington (UW, simply Washington, or informally U-Dub) is a public research university in Seattle, Washington. Founded in 1861, Washington is one of the oldest universities on the West Coast; it was established in Seattle ...

. A particularly interesting area for salt fingering is found in the Caribbean Sea, where it is responsible for producing a "staircase" of well-mixed layers a few metres in thickness that extend for hundreds of kilometres. Pre-dating the work of Stern, a paper by the American oceanographer

Henry Stommel Henry Melson Stommel (September 27, 1920 – January 17, 1992) was a major contributor to the field of physical oceanography. Beginning in the 1940s, he advanced theories about global ocean circulation patterns and the behavior of the Gulf Stream ...

discussed the creation of a large-scale salt finger in which a column of water would be surrounded by a membrane that would allow diffusion of temperature but not salinity. Once primed by the upward movement of the colder and fresher intermediate water, the resultant "perpetual salt fountain" would be able to draw energy (heat) from the local ocean water stratification.

References

*Gregg, M.C., (1988). Mixing in the thermohaline staircase east of Barbados. In Small Scale Turbulence and Mixing in the Ocean, eds. J.C.J. Nihoul and B.M. Jamart, Elsevier Oceanography Ser., 46, 453-470. *Kunze, Eric, (1987). Limits on growing, finite–length salt fingers: A Richardson number constraint.

Journal of Marine Research The ''Journal of Marine Research'' is an American journal, first published by Yale University in 1937, that covers peer-reviewed scientific articles and is still published today. The academic journal publishes articles Article often refers to: ...

., 45, 533-556. *Schmitt, Raymond W. The Ocean's Salt Fingers.

Scientific American ''Scientific American'', informally abbreviated ''SciAm'' or sometimes ''SA'', is an American popular science magazine. Many famous scientists, including Albert Einstein and Nikola Tesla, have contributed articles to it. In print since 1845, it ...

, May 1995, pp. 70–75. *Turner, J.S., (1973). Buoyancy effects in fluids. Cambridge University Press, pp. 251–287 (chapter 8). *Stern, Melvin E., (1960). The ”salt-fountain” and thermohaline convection. Tellus, 12,172-175. *Stommel, H., Arons, A.B., & Blanchard, D. (1956). An oceanographic curiosity: the perpetual salt fountain. Deep-Sea Research, 3,152-153. {{refend

External links

Salt Fingering
Physical oceanography