Showing posts with label climate change. Show all posts
Showing posts with label climate change. Show all posts

Tuesday, September 1, 2009

Oceanic Mascons


One day after reporting on the apparent existence of a switching mechanism in the heat flux of the ocean we get this. It is the one major variable that we would like to see closely mapped and here we are making it possible.

A shift in volumes of deep sea cold waters from one locale to the next would be really important. That it could actually explain the known sudden switching of global climate conditions is important because none of the other options work well at all.

Left on its own, the northern climate would warm up to a pleasant level warmer than today and stay there forever as demonstrated by the Bronze Age optimum.

So I return to the hypothesis that what we are dealing with is a mature equilibrium between the two hemispheres that became fully operational about three thousand years ago. Prior to that two changes were working to completion. The first was that the northern ice age was fully completing the process of deglaciation and the melt waters were both mixing with the ocean waters and the ocean itself was achieving a stable level of warmth. This was largely done perhaps as soon as 5,000 BP but certainly by 3000 BP.

The second event was that the southern polar cap was expanding to a new stable configuration possibly reached around 3000 BP. What began then was a cycle of deep sea cold water been injected periodically into the Northern Hemisphere in order to balance the two hemispheres.

These cycles are not properly mapped as yet but the indicators show some form of minor variation that occurs over a thirty to fifty year cycle or so. If this is generated mostly in the Pacific then it could be pretty benign. I think that we may have a similarly sized event occasionally happening in the Atlantic which would be several times more pronounced.

Anyway we are much closer to having measuring tools.

New Look At Gravity Data Sheds Light On Ocean And Climate

http://www.spacedaily.com/reports/New_Look_At_Gravity_Data_Sheds_Light_On_Ocean_And_Climate_999.html


by Rosemary SullivantPasadena CA (SPX) Aug 28, 2009

A discovery about the moon made in the 1960s is helping researchers unlock secrets about Earth's ocean today. By applying a method of calculating gravity that was first developed for the moon to data from NASA's Gravity Recovery and Climate Experiment, known as Grace, JPL researchers have found a way to measure the pressure at the bottom of the ocean.

Just as knowing atmospheric pressure allows meteorologists to predict winds and weather patterns, measurements of ocean bottom pressure provide oceanographers with fundamental information about currents and global ocean circulation. They also hold clues to questions about sea level and climate.

"Oceanographers have been measuring ocean bottom pressure for a long time, but the measurements have been limited to a few spots in a huge ocean for short periods of time," says JPL oceanographer Victor Zlotnicki.

Launched in 2002, the twin Grace satellites map Earth’s gravity field from orbit 500 kilometers (310 miles) above the surface. They respond to how mass is distributed in the Earth and on Earth's surface -the greater the mass in a given area, the stronger the pull of gravity from that area.

The pressure at the bottom of the ocean is determined by the amount of mass above it. "Ocean bottom pressure is the sum of the weight of the whole atmosphere and the whole ocean," says Zlotnicki. "When winds move water on the surface, ocean bottom pressure changes. When glaciers melt and add water to the ocean, the ocean's mass increases and bottom pressure increases, either at one place or globally."

"Measuring ocean bottom pressure was one of the things we said we wanted to do from the very beginning of the mission," says Grace project scientist Michael Watkins, "but it has been a challenge. The signal is very small and hard to detect."

Gravity changes over the ocean are miniscule compared to those over land. The ocean is a fluid. It yields to pressure and spreads the effect over a vast area. Nothing in the ocean gives as big a gravity signal as a flooding Amazon River or melting glaciers in Greenland or Alaska, changes that Grace can measure fairly easily, says Watkins. "Those hydrology signals are huge in comparison," he says.

However, as the mission progressed, Watkins explains, the science team has found better ways to process Grace data. And by turning to a technique developed for the lunar world, Grace researchers are getting the precise measurements of ocean bottom pressure they were hoping for.

From the moon to the ocean bottomIn the days leading up to the Apollo missions, JPL scientists discovered that certain areas of the moon had higher concentrations of mass than others. The result of these "mass concentrations" was marked differences in the moon's gravity field.

The researchers then devised a new way to calculate the gravity field called a "mascon" (for mass concentration) solution. Mascon solutions break the gravity field into small, individual regions. The more traditional ways of computing gravity, often called harmonic solutions, smooth everything together and calculate gravity for a whole large area or body.

Recently scientists have begun developing mascon solutions for Grace data for use in a variety of studies, and they are revealing fascinating new details about Earth's gravity field. These mascon solutions are also proving to be a key to Grace's ability to measure ocean bottom pressure.

"Some of the very best harmonic solutions show some bottom pressure signals, but the mascon solutions appear to do a better job and provide much higher resolution," says Watkins.

"Using a mascon solution with Grace data is a way of weighing each little piece of the ocean," he says. The result is a new view of the gravity field - one that reveals sharp contrasts in gravity precise enough to calculate variations in ocean bottom pressure.

A large field experiment off the coast of Japan provided an unusual and welcomed opportunity to put Grace mascon estimates of ocean bottom pressure to the test. There are few places in the ocean where there are enough data on ocean bottom pressure to validate the satellite's observations.

Oceanographer Jae-Hun Park and his colleagues at the University of Rhode Island compared the Grace measurements with data collected by a large array of pressure-reading instruments stationed on the ocean bottom as part of the Kuroshio Extension System Study. This two-year observational program to study deep ocean currents and fronts ran from 2004 to 2006.

"Our site covered a very wide area of 600 by 600 kilometers (370 miles) with 43 available bottom pressure sensors," says Park. He and his colleagues found that while some of the individual sensors had very high correlations with Grace measurements, others were very low. "These low correlations were small-scale eddies that Grace cannot catch," explains Park. Grace's resolution is about 200 kilometers (125 miles).

However, when they compared the spatially averaged monthly mean ocean bottom pressure measured by the ocean sensors with the latest JPL Grace mascon solution for the center of the array, "we found a high correlation between the Grace measurements and our in-situ measurements," says Park.

"This experiment gave us the opportunity to validate the Grace data." The results of the study appeared last year in Geophysical Research Letters.

Grace's new ability to detect small changes in ocean mass - reflected in ocean bottom pressure - will help scientists answer ongoing questions about sea level and climate change. It will help clarify, for example, just how much of sea level change is due to differences in ocean mass, the result of evaporation, precipitation, melting land ice, or river run-off and how much is due to temperature and salinity.

"Now, for the first time with these new mascon solutions," say Zlotnicki, "Grace will allow us to measure changes in ocean bottom pressure globally for long periods of time. This is a new tool for oceanography."

Monday, August 20, 2007

Solar Output

The one theory that has dogged all debates on global climate has been the idea that solar output variation is possibly greater than it is at different times in our history. The fact is that the sunspot cycle is clearly associated with a 1.5 watt per square meter variation of energy arriving at the upper atmosphere out of a total of 1366 watts per square meter. To dismiss its effect as slight is appropriate and also reassuring. There can be no surprises there. And unless some nuclear mechanism exists for which we have no evidence, the sun will continue to burn hydrogen at the same rate - i.e. - full out, for a few billion years more.

In fact, the only way to reduce solar output is to remove yourself to very high latitudes were it is possible to grow a polar ice cap for two thirds of the year.

Of this incoming energy, some is reflected away, a lot is absorbed by the atmosphere and the rest is absorbed by land and sea. And yes ladies, I know that if it were not for the biosphere it would be a big ice ball.

What I want everyone to observe, is that the only part of this that can truly vary and respond in the short term is the atmosphere. Massive reforestation of the Sahara will change dynamics but will also require a century as would similar land based modifications, however desirable. The sea is a sponge for energy that shifts at the rate of perhaps 1500 miles per year. It must take several years for heat in the equator to be exchanged for polar cold.

Now the heat content of the atmosphere in the tropics is already maxed out, or should be. That means that if the atmosphere is to absorb more heat, it must naturally shift that heat towards the poles, as it may be doing.

We now enter the realm of the ongoing debate, driven only by the fact that the our apparent climate has warmed up slightly. These current variations are still within what we know of long term historical cycles. The debate is over humanity's contribution.

And here is where I draw the line. The use of the atmosphere as a CO2 dump and a particulate dump is wrong irrespective of any linkages to climate change. We have already discovered that we can resolve both problems completely and economically. We can even provide self sustaining livelihoods for a billion families using what we have discovered.

We need a global regulatory mandate to eliminate stack gas emissions, exclusive of CO2 and to convert agriculture over to Terra Preta practices for soil enhancement and carbon sequestration. And there needs to be no break for anyone. The biggest beneficiaries will be the developing world.