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The deep oceans drive the atmosphere
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JoNova ^ | June 12th, 2010 | William Kininmonth Guest post
Posted on Fri 11 Jun 2010 11:07:22 AM PST by Ernest_at_the_Beach
Ever wondered how the whole planet could suddenly get warmer during an El Nino, and then suddenly cool again? William Kininmonth has the answer. As I read his words Im picturing a major pool of stored coldness (bear with me, I know cold is just a lack of heat) which is periodically unleashed on the surface temperatures. The vast deep ocean abyss is filled with salty and near freezing water. In years where this colder pool is kept in place we have El Ninos, and on years when the colder water rises and mixes up near the surface we have La Ninas. The satellites recording temperatures at the surface of the ocean are picking up the warmth (or lack of) on this top-most layer. Thats why it can be bitterly cold for land thermometers but at the same time the satellites are recording a higher world average temperature, due to the massive area of the Pacific.
In other words, just as youd expect, the actual temperature of the whole planetary mass is not rising and falling within months, instead, at times the oceans swallow the heat on the surface and give up some coldness. At other times, the cold stays buried deep down and the heat can collect and loll about on the surface.
William Kininmonth was chief of Australias National Climate Centre at the Bureau of Meteorology from 1986 to 1998. Below, he describes how a vast pool of cold water filled the deep ocean abyss over 30 million years, and why this water and the currents that shift it have a major impact our climate. The so-called Bottom Layer is not just pockets or pools, it forms around Antarctica, then sinks and flows along the bottom all the way across the equator and into the Northern Hemisphere. Bear in mind the average depth of the ocean is around 4 kilometers, and yet almost all the water below a depth of 1000 m is around 4°C or colder. The Antarctic Bottom Water itself is close to 0°C. The equivalent heat energy of the entire atmosphere is stored in just the top few meters of water. It gives us all some perspective on the relative importance of different factors affecting the climate. His thoughts are in response to the latest debate essay from Dr Andrew Glikson, so the figures 1 and 2 come from that article.
Kininmonth points out that small changes in the rate of the Thermohaline Circulation (also known as the Oceans Conveyor Belt) makes a huge difference to all corners of the globe, and that the climate models make large assumptions about the flow of energy. Since the cold bottom layer was created by a kind of Antarctic Refridgerator (set into play by the circumpolar current) this colossal cold pool of water will presumably hang around until the continents shift. Thats quite a few election cycles.