By: Arjun Walia
It’s called magnetoreception, and it refers to the ability to perceive magnetic fields. Several animals use it to find their way over long distances by aligning themselves with the Earth’s magnetic field. Sea turtles. honeybees, spiny lobsters, dolphins, migratory birds, and more all have a magnetic compass which allows them to use the information that’s coded into magnetic fields. We know little beyond that, however. How they use them, how they sense them, and what information they are getting from them remains up for speculation. For all we know, these magnetic fields could be used for much more than navigation for certain species.
According to Joe Kirschvink, the geophysicist at the California Institute of Technology who is currently testing humans for a magnetic sense, “it’s part of our evolutionary history. Magnetoreception may be the primal sense.”
A recent study published by Kirschvink in the journal Nature Communications suggests that a protein in the human retina, when placed into fruit flies, has the ability to detect magnetic fields. The research claims that it can serve as a magneto sensor, but whether or not humans actually use it in this way is unknown.
“It poses the question, ‘maybe we should rethink about this sixth sense,’” University of Massachusetts Medical School researcher Steven Reppert told LiveScience. “It is thought to be very important for how animals migrate. Perhaps this protein is also fulfilling an important function for sensing magnetic fields in humans.”
In one of Kirschvink’s recent experiment, a rotating magnetic field was passed through study participants while their brainwaves were measured. He discovered that when the magnetic field was rotated counterclockwise, certain neutrons responded to this change which, in turn, generated a spike in electrical activity. This suggests a possible magnetic sense in humans.
Yet multiple questions still remain. For example, was this neural activity evidence of a magnetic sense or something else? Even if the human brain responds to these fields in some way, that doesn’t mean that information is being processed by the brain. There is still the question of what mechanisms are in place within the brain or body that receive these signals. If the body does indeed have magneto receptors, where are they? The next step for researchers is to identify them.
- lds, ice as we know it could not exist on Earth. They are part of the dynamic ecosystem of our planet.
Other Evidence That Humans Can Sense These Fields
These energetic fields are known to scientists, and the notion that solar activity and the rhythms taking place on Earth’s magnetic fields have an impact on health and behaviour has been firmly established in scientific literature.
Scientific literature is also clear on the fact that several physiological rhythms and global collective behaviours are not only synchronized with solar and geomagnetic activity, but also that disruptions in these fields can create adverse effects on human health and behaviour
When the Earth’s magnetic field environment is distributed it can cause sleep problems, mental confusion, usual lack of energy or a feeling of being on edge or overwhelmed for no apparent reason. At other times, when the Earth’s fields are stable and certain measures of solar activity are increased, people report increased positive feelings and more creativity and inspiration. This is likely due to a coupling between the human brain, cardiovascular and nervous system with resonating geomagnetic frequencies.
The Earth and ionosphere generate frequencies that range from 0.01 hertz to 300 hertz, some of which are in the exact same frequency range as the one happening in our brain, cardiovascular system, and autonomic nervous system. This offers one way to explain how fluctuations in the Earth’s and Sun’s magnetic fields can influence us. Changes in these fields have also been shown to affect our brainwaves, heart rhythms, memory, athletics performance, and overall health.
Changes in the Earth’s fields from extreme solar activity have been linked to some of humanity’s greatest creations of art, as well as some of its most tragic events.
We know how these fields affect us, but what about how we affect these fields? That’s the real question here. GCI scientists believe that because brain wave and heart rhythm frequencies overlap the Earth’s field resonance, we are not just receivers of biologically relevant information, but also senders of it. We feed information into the global field, thus creating a feedback loop with the Earth’s magnetic fields.
Human emotions and consciousness interact with and encode information into the geomagnetic field and this information is distributed globally. . . . We are suggesting in essence that this encoded information is communicated nonlocally between people at a subconscious level, in effect linking all living systems. Magnetic fields act as carrier waves for this information, which can influence all living systems – positively or negatively – within the field environment as well as our collective consciousness.
If we look at the heart, for example, it emits electromagnetic fields which change according to our emotions, and these can actually be measured up to several feet away from the human body.
These fields have been shown to affect not only ourselves, but those around us. You can read more about that here.
This research on this topic, which is still in its infancy, has immense ramifications for our world. It will further prove and highlight the great extent to which our attitudes, emotions, and intentions matter, and that these factors within the realm of non-material science can affect all life on Earth. Coherent, cooperative intention could impact global events and improve the quality of life on Earth. Practicing love, gratitude, and appreciation, as well as bettering ourselves as individuals, are some of the many crucial action steps towards changing our planet for the better.