Wednesday, August 18, 2010

Cambrian Explosion Crustal Shift







Mother Nature has finally thrown us some evidence that will shake up thinking of the actual mobility of the crust.  I have proposed an answer to the technical problem in earlier work and articles.  The fact remains that the crust is mobile and at varying rates of speed.

In the case cited, the shift was over a full sixty degrees.  As important the shift is directly linked to the previously never understood Cambrian explosion.

It all poses a pretty problem and we will have to map it all much better.  This will take a lot of time. Perhaps someday we will have enough to reconstruct things properly as we have with the spreading of the Atlantic at least.

We really need to drill out a global grid that picks up the magnetic shift history.  Because it does vary, it acts as an age check on the strata graphic sequence which is not in place for most of the needed record.  We can have a three dimensional map of the earth’s crust that places any suite of core into its place in time. It will be possible to determine previous spreading events in particular and locate missing parts.

Gondwana Supercontinent Underwent Massive Shift During Cambrian Explosion

by Staff Writers

New Haven CT (SPX) Aug 17, 2010



The paleomagnetic record from the Amadeus Basin in Australia (marked by the star) indicate a large shift in some parts of the Gondwana supercontinent relative to the South Pole. Illustration: Ross Mitchell/Yale University.



The Gondwana supercontinent underwent a 60-degree rotation across Earth's surface during the Early Cambrian period, according to new evidence uncovered by a team of Yale University geologists. Gondwana made up the southern half of Pangaea, the giant supercontinent that constituted the Earth's landmass before it broke up into the separate continents we see today.

The study, which appears in the August issue of the journal Geology, has implications for the environmental conditions that existed at a crucial period in Earth's evolutionary history called the Cambrian explosion, when most of the major groups of complex animals rapidly appeared.

The team studied the paleomagnetic record of the Amadeus Basin in central Australia, which was part of the Gondwana precursor supercontinent.

Based on the directions of the ancient rock's magnetization, they discovered that the entire Gondwana landmass underwent a rapid 60-degree rotational shift, with some regions attaining a speed of at least 16 (+12/-8) cm/year, about 525 million years ago. By comparison, the fastest shifts we see today are at speeds of about four cm/year.

This was the first large-scale rotation that Gondwana underwent after forming, said Ross Mitchell, a Yale graduate student and author of the study.

The shift could either be the result of plate tectonics (the individual motion of continental plates with respect to one another) or "true polar wander," in which the Earth's solid land mass (down to the liquid outer core almost 3,000 km deep) rotates together with respect to the planet's rotational axis, changing the location of the geographic poles, Mitchell said.

The debate about the role of true polar wander versus plate tectonics in defining the motions of Earth's continents has been going on in the scientific community for decades, as more and more evidence is gathered, Mitchell said.

In this case, Mitchell and his team suggest that the rates of Gondwana's motion exceed those of "normal" plate tectonics as derived from the record of the past few hundred million years. "If true polar wander caused the shift, that makes sense. If the shift was due to plate tectonics, we'd have to come up with some pretty novel explanations."

Whatever the cause, the massive shift had some major consequences. As a result of the rotation, the area that is now Brazil would have rapidly moved from close to the southern pole toward the tropics. Such large movements of landmass would have affected environmental factors such as carbon concentrations and ocean levels, Mitchell said.

"There were dramatic environmental changes taking place during the Early Cambrian, right at the same time as Gondwana was undergoing this massive shift," he said. "Apart from our understanding of plate tectonics and true polar wander, this could have had huge implications for the Cambrian explosion of animal life at that time."

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