New Study Reaffirms Fluctuation of Earth’s Magnetic Field Prior to Full Reversal

A team of researchers from Tel Aviv University, The Hebrew University and the University of California has used ancient jar handles to chart the strength of the Earth’s magnetic field over a 600-year period. In their paper published in Proceedings of the National Academy of Sciences, the team describes how they were able to accurately date the jar handles, which allowed for measuring the geomagnetic field over time.

The geomagnetic field shields life on Earth from a constant stream of cosmic radiation. In this new effort, the researchers sought to learn more about the intensity of the field over time using ancient evidence and to apply this information to understanding how it might behave in the future.

As the team explains, iron oxide particles embedded in clay used to make jars can be used as a measuring device because they become fixed in alignment while the clay is still soft due to the geomagnetic field – once the jar undergoes firing, the particles remain frozen in place. In addition, ancient jar makers stamped and inscribed the handles for tax purposes, leaving clear clues about when they were made.

Thus, to create a single measurement, the researchers would date a given jar handle using historical texts, then examine the iron oxide particles to get a reading regarding magnetic strength. By repeating this process for jar handles created between the 6th and 2nd centuries BCE, the team was able to create a magnetic field strength timeline.

The researchers report that the jar handles revealed a gradual reduction in field strength over the course of the six centuries under study, and that there were also spikes and drops in field strength during some time periods. They found, for example, that field strength spiked at the end of the 8th century BEC, and then sagged again afterwards, losing approximately 27 percent of its strength.

These fluctuations, the team suggests, indicate that we do not need to be worried about the weakening field that has been observed over the past 180 years-they believe it represents normal fluctuations. The new data may also help planet scientists better understand the nature of the geomagnetic field and to answer some questions, such as why fluctuations and changes in direction occur.

BREAKING NEWS: A New Powerful Study Affirms Battros 2012 Equation

When Earth overheats, it finds its way to maintain its ambient temperature. In very much the same way humans sweat through our pores to cool off, in like manner, Earth sweats by producing increased mantle plume activity.

New research released this week confirms increased heat from Earth’s core strengthens the flow viscous material (liquefied rock) upward through the mantle having an effect on tectonic plates, including seamounts which in-turn heats the oceans.

For decades, scientists have theorized that the movement of Earth’s tectonic plates is driven largely by negative buoyancy created as they cool. New research, however, shows plate dynamics are driven significantly by the additional force of heat drawn from the Earth’s core.

The new findings also challenge the theory that underwater mountain ranges known as mid-ocean ridges are passive boundaries between moving plates. The findings show the East Pacific Rise, the Earth’s dominant mid-ocean ridge, is dynamic as heat is transferred.

David B. Rowley, professor of geophysical sciences at the University of Chicago, and fellow researchers came to the conclusions by combining observations of the East Pacific Rise with insights from modeling of the mantle flow there. The findings were published Dec. 23 in Science Advances.

“We see strong support for significant deep mantle contributions of heat-to-plate dynamics in the Pacific hemisphere,” said Rowley, lead author of the paper. “Heat from the base of the mantle contributes significantly to the strength of the flow of heat in the mantle and to the resultant plate tectonics.”

The researchers estimate up to approximately 50 percent of plate dynamics are driven by heat from the Earth’s core and as much as 20 terawatts of heat flow between the core and the mantle.

Unlike most other mid-ocean ridges, the East Pacific Rise as a whole has not moved east-west for 50 to 80 million years, even as parts of it have been spreading asymmetrically. These dynamics cannot be explained solely by the subduction of a process whereby one plate moves under another or sinks. Researchers in the new findings attribute the phenomena to buoyancy created by heat arising from deep in the Earth’s interior.

“The East Pacific Rise is stable because the flow arising from the deep mantle has captured it,” Rowley said. “This stability is directly linked to and controlled by mantle upwelling,” or the release of heat from Earth’s core through the mantle to the surface.

The Mid-Atlantic Ridge, particularly in the South Atlantic, also may have direct coupling with deep mantle flow, he added.

“The consequences of this research are very important for all scientists working on the dynamics of the Earth, including plate tectonics, seismic activity and volcanism,” said Jean Braun of the German Research Centre for Geosciences, who was not involved in the research.

The forces at work

Convection, or the flow of mantle material transporting heat, drives plate tectonics. As envisioned in the current research, heating at the base of the mantle reduces the density of the material, giving it buoyancy and causing it to rise through the mantle and couple with the overlying plates adjacent to the East Pacific Rise. The deep mantle-derived buoyancy, together with plate cooling at the surface, creates negative buoyancy that together explain the observations along the East Pacific Rise and surrounding Pacific subduction zones.

A debate about the origin of the driving forces of plate tectonics dates back to the early 1970s. Scientists have asked: Does the buoyancy that drives plates primarily derive from plate cooling at the surface, analogous with cooling and overturning of lakes in the winter? Or, is there also a source of positive buoyancy arising from heat at the base of the mantle associated with heat extracted from the core and, if so, how much does it contribute to plate motions? The latter theory is analogous to cooking oatmeal: Heat at the bottom causes the oatmeal to rise, and heat loss along the top surface cools the oatmeal, causing it to sink.

Until now, most assessments have favored the first scenario, with little or no contribution from buoyancy arising from heat at the base. The new findings suggest that the second scenario is required to account for the observations, and that there is an approximately equal contribution from both sources of the buoyancy driving the plates, at least in the Pacific basin.

“Based on our models of mantle convection, the mantle may be removing as much as half of Earth’s total convective heat budget from the core,” Rowley said.

Much work has been performed over the past four decades to represent mantle convection by computer simulation. Now the models will have to be revised to account for mantle upwelling, according to the researchers.

“The implication of our work is that textbooks will need to be rewritten,” Rowley said.

The research could have broader implications for understanding the formation of the Earth, Braun said. “It has important consequences for the thermal budget of the Earth and the so-called ‘secular cooling’ of the core. If heat coming from the core is more important than we thought, this implies that the total heat originally stored in the core is much larger than we thought.

“Also, the magnetic field of the Earth is generated by flow in the liquid core, so the findings of Rowley and co-authors are likely to have implications for our understanding of the existence, character and amplitude of the Earth’s magnetic field and its evolution through geological time,” Braun added.

(PART III) Magnetic Pole Reversal Coming Sooner Than You Think

According to scientists’ best estimates, the Earth’s magnetic field is now weakening around 10 times faster than previously predicted, losing approximately 5% of its strength every decade. This finding indicates a magnetic pole reversal could be coming sooner rather than later.

magnetic_pole_reversal

 The geomagnetic dipole has decreased by nearly 6% per century since first measured by Gauss in the 1840s. This too is 10-20 times faster than the “Ohmic” decay rate. (The process by which the passage of an electric current through a conductor releases heat). The causes of this rapid decrease in Gauss stability, is the proliferation of reverse magnetic field on the core-mantle boundary. This has occurred especially beneath the South Atlantic with the transference of heat energy in a horizontal stream of the magnetic field from high to low latitudes.

The weakening of Earth’s magnetic field has two fundamental points. First: A weakened magnetic field allows charged particle events such as galactic cosmic rays, gamma rays, solar flares, and coronal mass ejections (CME), to produce enhanced consequences to extreme weather events that include earthquakes, volcanoes, hurricanes, tornadoes etc.

galactic_cosmic_rays_sun_magnetic_field_earths_core_scienceofcycles-com_m

Second: The second major consequence of a weakened magnetic field is its identification as the ‘precursor’ to a magnetic pole shift. It is estimated that Earth’s magnetic field reverses every few thousand years at low latitudes and every 10,000 years at high latitudes. It is believed we are far enough along the cycle that many living today will witness the bouncing back and forth of magnetic north and it swings reaching latitudes below 30°. Magnetic north can also move east and west longitudes.

Precursor First – Then Full Magnetic Flip
Individual magnetic reversal records show a remarkable degree of repeatability, including dipole collapse, rapid polarity change, and fast dipole intensity recovery stages. This is to say historical magnetic field reversals indicate that during the period of Earth’s magnetic field reduction, it will be in flux for several years before a full magnetic flip will incur. At this stage of magnetic minimization close to zero point, the magnetic field may have multiple swings north and south across the equator, additionally with large excursions of geomagnetic polar flux in east and west longitudes.

shifting_magnetic_pole

The final stage of reversal is when the dipole intensity partially recovers. An example of this phenomena would be magnetic north suddenly dropping down to at or below the equator, then rapidly snapping back to say and briefly exceeds the surface non-dipole intensity, which in turn is followed by a very rapid dipole intensity collapse, final reversal, and recovery of the dipole intensity in the new polarity position. The final latitudes and longitude positions are unknown. However, historical records indicate north will be south – and south will be north – but at what degrees North-South-East-West is anyone’s guess.

When the poles flip, having a compass that points South instead of North does not seem like too big of a deal to humans, but there is a question of what will happen other animals. Certain migratory animals like sea turtles and birds use the magnetic field in order to orient themselves. A reversal of the poles could interfere with their ability to do so.

partial_extinction

Another concern about the reversal is that the weakening of the magnetic field, which precedes the flipping event, will mean that it will not be able to adequately shield us from the Sun’s radiation. Although there is no direct evidence in the fossil record of a “mass” extinction correlating with a field reversal or an influx of radiation, records show there have been selective extinctions. Additionally, there is concern of what could happen to power grids, satellites and effects on weather patterns.

The question is not ‘will there be a magnetic pole reversal’, but at what phase are we currently in? I would suggest we are in the last phases. There are many of you who will be able to witness a magnetic reversal firsthand, what transpires over the next 50 to 60 years. Unfortunately, I will not be one of them but my kids will be; and they have been instructed to take good notes and photos to pass on to their kids.

(PART II) The Causes of Heating and Cooling of Earth’s Core and Climate Change

Ongoing studies supported by the NSF (National Science Foundation) indicate a connection between submarine troughs (rifts), Earth’s mantle, and Earth’s outer core. Furthermore, new research indicates the shifting of magnetic flux via Earth’s magnetic field, has a direct and symbiotic relationship to Earth’s outer core, mantle, lithosphere, and crust.

milankovitch_cycles33_scienceofcycles

As a living entity, Earth fights for its survival. If internal or external events begin to throw Earth out of balance i.e. orbital, tilt, or magnetic alignment – it begins to correct itself. When oceanic tectonic subductions occur, it cools the mantle and outer core. To balance this shift in temperatures, the Earth’s core increases heat and as a result releases what is known as “mantle plumes”. These plumes filled with super-heated liquid rock float up to the ocean bottom surface.

galactic_cosmic_rays_sun_magnetic_field_earth_s_core_scienceofcycles-com_m

This action both cools the outer core and heats the oceans. As a result of heated oceans, we get tropical storms and various forms of extreme weather. When troughs, subduction zones, and rifts shift, as a result of convection, earthquakes, tsunamis, and volcanoes occur.

This is to say, during solar maximum it was believed the solar radiation was creating super-heated hydrogen and oxygen atoms and thus generating a super-heated Meso/Thermosphere. In like, it was believed solar minimum would spawn the cooling of H and O atoms thus cooling this region.

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shifting_magnetic_pole_and_weakening_scienceofcycles-com_m

What makes this all work is the Earth’s magnetic field. Right now the magnetic field is weakening significantly. This will continue until it reaches zero point, at which time there will be a full magnetic reversal. Until this time, we will witness magnetic north bouncing in the northern hemisphere. Closer to the moments of a full reversal, we will see magnetic north drop down to/then below the equator.

As a result of a weakened magnetic field, larger amounts of radiation via charged particles such as solar flares, coronal mass ejections, gamma rays, and galactic cosmic rays – are more abundantly reaching Earth’s atmosphere and having a heightened reaction with Earth’s core layers. This is what causes looped reaction. Radiation heats the core layers, the outer core reacts by producing ‘mantle plumes’, which causes crustal fracturing, which then causes earthquakes, volcanoes, heated oceans – all of which cools the outer core.

What this adds up to is the natural cyclical mechanics identifying a coming magnetic reversal. We can expect to see the aurora borealis to shine its wonderment waves in the skies more often, and we can expect them to come further south with each coming few years. The FAA (Federal Aviation Administration) will need to double its staff over the next five decades, as they play “catch the bouncing ball” having to re-calibrate instruments more and more often as they vector in true-north as all GPS and Compass’s do their best to stay on target.

There Needs to be a Part – III  COMING NEXT WEEK: “Magnetic Pole Reversal Happens All The (Geologic) Time”


I’ve been away from the family on a few occasions working with my Emergency Management Team dealing with a few natural disasters. Unfortunately, this dips into my regular ability to earn income. As most of you know I have two wonderful girls ages 8 and 4, and I’m feeling a bit guilty for not preparing to make sure they have a wonderful Christmas with toys and gifts under the tree.

sophia_alexa_santa_2016_

In my part-time volunteer work with EMO, when duty calls, I answer. It’s part of what I do on my chosen journey.

By you helping with keeping Science of Cycles up and running, on this occasion in kind of a indirect way, you will place a gift under the tree.     Cheers, Mitch


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BREAKING NEWS: New Study Shows Mantle Plume Movement Occurs More Rapidly Affecting Oceans and Climate

Still more confirmation of Battros 2012 equation identifying mantle plumes role in Earth’s core convection process. This new study also confirms mantle’s effect on ocean warming and specifically “ice caps.” This throws a hefty monkey-wrench into advocates of the 1988 made-up name global warming. I will attach my previous articles highlighting the connection to cyclical events occurring in our backyard “Milky Way” and our neighboring galaxies.

equation-mantle plumes

New Equation:
Increase Charged Particles → Decreased Magnetic Field → Increase Outer Core Convection → Increase of Mantle Plumes → Increase in Earthquake and Volcanoes → Cools Mantle and Outer Core → Return of Outer Core Convection (Mitch Battros – July 2012)

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Researchers have compiled the first global set of observations of the movement of the Earth’s mantle, the 3000-kilometer thick layer of hot silicate rocks between the crust and the core, and have found that it looks very different to predictions made by geologists over the past 30  a years.

galaxy-sun-earth3_m

The team, from the University of Cambridge, used more than 2000 measurements taken from the world’s oceans in order to peer beneath the Earth’s crust and observe the chaotic nature of mantle flow. These movements have a huge influence on the way Earth looks today related to mountain formation, volcanic activity and earthquakes.

inside earth1

The result of this new research is now published in the journal Nature Geoscience. Significant ramifications across many disciplines including the study of oceanic circulation and past climate change are now made manifest creating a bit of a shake-up in the global warming world.

The inventory of more than 2000 spot observations was determined by analyzing seismic surveys of the world’s oceans. By examining variations in the depth of the ocean floor, the researchers were able to construct a global database of the mantle’s movements.

subsea-volcanoes-110712-02

“These results will have wider reaching implications,” said Hoggard. “Considering the surface is moving much faster than we had previously thought, it could also affect things like the stability of ice caps and help us to understand past climate change.”

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Below are Recent Articles Reflecting
Battros Hypothesis Turned Theory

JUST IN: New High-Energy Sources of Gamma and Cosmic Rays Discovered

JUST IN: New Maps Chart Mantle Plumes Melting Greenland Glaciers

JUST IN: Scientists Beginning to Identify Signs That  Galactic Cycles are Analogous with Sun-Earth’s Circumvolution

BREAKING NEWS: Powerful Acquiescence of Battros ‘Equation’ in New Discovery – Charged Particle Acceleration

UPDATE: New Sources of Charged Particles Discovered

BREAKING NEWS: A Dramatic Galactic Explosion Arrived at Earth in 2012

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The Causes of Heating and Cooling of Earth’s Core and Climate Change

Ongoing studies supported by the NSF (National Science Foundation) indicate a connection between submarine troughs (rifts), Earth’s mantle, and Earth’s outer core. Furthermore, new research indicates the shifting of magnetic flux via Earth’s magnetic field, has a direct and symbiotic relationship to Earth’s outer core, mantle, lithosphere, and crust.

_new_equation-2012

As a living entity, Earth fights for its survival. If internal or external events begin to throw Earth out of balance i.e. orbital, tilt, or magnetic alignment – it begins to correct itself. When oceanic tectonic subductions occur, it cools the mantle and outer core. To balance this shift in temperatures, the Earth’s core increases heat and as a result releases what is known as “mantle plumes”. These plumes filled with super-heated liquid rock float up to the ocean bottom surface.

This action both cools the outer core and heats the oceans. As a result of heated oceans, we get tropical storms and various forms of extreme weather. When troughs, subduction zones, and rifts shift, as a result of convection, earthquakes, tsunamis, and volcanoes occur.

What makes this all work is the Earth’s magnetic field. Right now the magnetic field is weakening significantly. This will continue until it reaches zero point, at which time there will be a full magnetic reversal. Until this time, we will witness magnetic north bouncing in the northern hemisphere. Closer to the moments of a full reversal, we will see magnetic north drop down to/then below the equator.

As a result of a weakened magnetic field, larger amounts of radiation via charged particles such as solar flares, coronal mass ejections, gamma rays, and galactic cosmic rays – are more abundantly reaching Earth’s atmosphere and having a heightened reaction with Earth’s core layers. This is what causes looped reaction. Radiation heats the core layers, the outer core reacts by producing ‘mantle plumes’, which causes crustal fracturing, which then causes earthquakes, volcanoes, heated oceans – all of which cools the outer core.

This seemingly repeating loop will continue until the Earth will once again find its balance. Until then, we can expect naturally occurring earth changing events which will produce the loss of mass in some parts of the world, and emergence of mass in other parts. Maybe this is the time to change the things we can (attitude, environment, community, self, surroundings), one would be a fool not to apply themselves within their means – but then there is the time to loosen up a bit, know what is happening is just part of a process.

Just as the Earth, we humans can just keep on trucking, and maybe, just maybe, some will simply ‘enjoy-the-ride’.