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Scientists May Have Just Solved One of The Most Troubling Mysteries About Sea-Level Rise

Thats right - in addition to all the devastating and obvious effects sea-level rise will produce on the planet, such as flooding and erosion, sea-level rise also has the more subtle, but nonetheless mind-boggling ability to alter the way the Earth rotates on its axis.

"If you melt ice sheets or glaciers, which happen to be close to the poles, and all of that mass moves from the poles toward the equators, that movement is very similar [to] a figure skater who puts her arms out," said the new papers lead author, Jerry Mitrovica, a professor of geophysics at Harvard University. "The melting of glaciers acts to slow the spin of the Earth in a measurable way."

Additionally, glacial melt can also cause the Earths rotation to wobble a little, since "the melting of glaciers isnt perfectly symmetrical, and the water will move more in some parts of the Earth than others," Mitrovica said.

Theoretically, one should be able to look at calculations of how the Earths rotation has changed over the years, compare these changes with the amount of glacial melting believed to have occurred in the same time frame, and find that the two measurements reinforce each other.

This is just what Munk attempted to do. But, as he pointed out in his 2002 paper, the calculations just didnt add up.

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Munk was able to reference both 20th century data and ancient astronomical records for information on how the Earths rotation has changed over the years. When trying to determine how much of these changes were caused by 20th-century human-caused sea-level rise, specifically, Munk also had to account for another important factor known as the ice age effect. This is a phenomenon in which massive amounts of glacial melting, which occurred thousands of years ago at the end of the last ice age, can still produce changes on the Earths surface - and, thus, affect its rotation - centuries or even millennia after the fact.

This is because the Earths interior is viscous, meaning the rocks that make it up tend to flow and reshape themselves very slowly over long periods of time - kind of like clay or putty might spread out very slowly if you were to set it on a table and leave it alone. After the ice age glaciers melted, they left indentations in the Earths surface that have been slowly bouncing back ever since, affecting the Earths rotation in the process, Mitrovica said. By incorporating an ice age model into his calculations, Munk was able to "correct" for this effect on the Earths rotation and see how much room was left over, or how much of a "signal" existed, as the scientists put it, for effects caused by 20th-century sea-level rise.

Herein lies the enigma: While the ice age effect fit the observed rotational changes perfectly, there was no room left to account for 20th-century sea-level rise, which scientists at the time estimated to have occurred at rate of about 1.5 to 2 millimeters per year. In other words, if Munk factored in the rotational changes that should have been produced by modern glacial melting, they suggest a greater effect than has actually been observed.

It was a true mystery, Mitrovica said. Munk knew that the Earths rotation had changed, and he knew that sea-level rise had occurred - he just couldnt make the two observations match up. In his paper, he proposed a few theories as to what might have gone wrong, including the idea that the ice age model he used was inaccurate or that the estimations of 20th-century sea-level rise were too high.

In any case, Munk noted, figuring out the problem is an important challenge. "Sea level is important as a metric for climate change as well as in its own right," he wrote in his paper. "We are in the uncomfortable position of extrapolating into the next century without understanding the last."

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"Over the years, this was one of those papers that just kept coming back and coming back, and there was a group of us who realized that this is really an issue, here," Mitrovica said. In a new paper, Mitrovica and an interdisciplinary team of colleagues claim to have resolved the enigma by pointing out a few key flaws in Munks original calculations.

First, they say, the estimates of 20th-century sea-level rise used by Munk were too high. More recent estimates put the rate at between 1 and 1.5 millimeters per year, Mitrovica said. Additionally, he and his colleagues argue that the model Munk used to correct for the ice age effect was inaccurate.

"What Munk didnt realize at the time. . . is that the model he used for the ice age made a very significant error about the Earths internal structure," Mitrovica said, suggesting that the model Munk used didnt accurately reflect how viscous the Earths internal structure actually is. He and his colleagues proposed a new model, one that estimates viscosity differently.

Even with the new model and the updated sea-level rise estimates, however, the calculations didnt quite fit with historical astronomical records. It looked as though there was one last missing piece - and the authors believe it has to do with the way motion in the Earths core affects the planets rotation. This is a factor that Munk failed to take into account entirely, said Sabine Stanley, a professor of physics at the University of Toronto and one of Mitrovicas co-authors.

"The earth itself is made up of a solid layer with this liquid core inside," Stanley said. "Whenever motion occurs in one layer, thats going to affect the other layer." She likened this "coupling effect" to a hamster running in a wheel - as the hamster runs in one direction, it causes the wheel to spin in the opposite direction.

"We know that there have been changes in the magnetic field to suggest changes in the cores rotation, and that means changes in the way we see things on the surface," Mitrovica said. When the scientists added the coupling effect to their calculations, suddenly everything snapped together - the calculations fit the observed astronomical data, and there was enough rotational "signal" left over to account for 20th-century sea-level rise.

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But the mystery may not be quite resolved, according to some. William Richard Peltier, a professor of physics at the University of Toronto, takes issue with some of the papers key points. Peltier was not involved with this paper, but is familiar with much of the work that went into it - Mitrovica was one of his doctoral students, and some of Peltiers own work was incorporated into Munks original calculations.

Peltiers main issue with the argument in the paper has to do with the new viscosity model - the model of the way the Earth flows - that the authors used to help account for the ice age effect. Previous research has suggested that this model does not match up with observed data on the way the Earths geology actually behaves, Peltier said. In essence, he claims, this aspect of the paper is "absolutely incorrect."

Peltier does note that the authors inclusion of the coupling influence - that hamster-wheel effect described by Stanley - is "the really interesting and innovative comment in the paper." However, taken as a whole, he said the proposal is a "nice try, but no cigar."

So, it seems, theres still a debate to be had here. Mitrovica insists that the striking thing about this paper is how neatly all the calculations line up at the end. "The general framework for solving the enigma is done now, and happily that framework shows that there is a signal left over when you correct for the ice age," he said, noting that "the signal is precisely what it has to be" to account for the estimated 20th-century sea-level rise. To Mitrovica, thats no coincidence.

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The findings "lend support to our confidence in recent estimates of sea level rise and the increasing ice sheet contribution," said Michael Oppenheimer, the Albert G. Milbank professor of geosciences and international affairs at Princeton Universitys department of geosciences, in an email to The Post.

Indeed, Mitrovica said, exploring climate changes more subtle effects - such as its ability to affect the planets rotation - is an important way for scientists to back up the existing climate science. "Yes, this is a subtle effect; yes, we dont like talking about it, because its so subtle," Mitrovica said. "[But] it sort of adds to the credibility of the scientific consensus by saying even the most subtle effects that we might predict from global climate change are consistent with the scientific consensus."

And, more simply, the paper helps reinforce the awe-inspiring power of climate change to produce global-scale effects, changing the planets very rotation. While this effect might be tiny from a human perspective, "the amazing thing is that we can observe these things," Mitrovica said. "The effects are very small, but hidden in them are very large changes in the Earths system."


10:44 - 14/12/2015    /    Number : 66970    /    Show Count : 764



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