What is ElectroCulture?

How can we grow healthier plants using the earth's natural magnetic fields with natural elements, such as copper, to yield beneficial nutrients from fruits and vegetables for our health?

Welcome to the fascinating world of electroculture, where science meets agriculture in an electrifying way!

This short introduction asks the question of how we can grow healthy plants so we can use their key nutrients to benefit human health based on lost findings from our ancestors.

Let's face reality here. Big corporations are selling us foods that are genetically modified versions of natural organically grown produce. Their use of chemical pesticides, fertilisers, and 'forever chemicals' are clearly destroying all the vital components needed to benefit us. As a direct result, we the people are sadly degenerating with disease faster than ever before.

My personal intrigue in this field was ignited back in 2016 following an experience that almost took my life. I had to find a way of healing my body, choosing marijuana and the multi-cannabinoids found in sativa and indica plants alongside frequency healing to help my recovery.

Following the discovery that marijuana was being cultivated in space on the International Space Station, and that backyard crops of marijuana in the US and Canada were growing healthily and faster around sound frequencies, my intrigue into frequencies for human health began to take up a lot of my spare time.

Convinced that becoming part of the CBD industry we see today was a great new path to follow, I traveled to the mountains close to Valencia, Spain to spend a few days meeting a forward-thinking Irish farmer. Michael (below) had identified that the rich soil in the region and an abundance of natural sunlight could be a perfect spot to build a future hemp farm project to yield CBD oil.

During our discussions, I mentioned whether his hemp crops could benefit from various frequencies surrounding the plants. Could sound assist their growth, and their overall health to fight disease and produce the best buds and oils for human healing? The farmer had never considered these ideas previously and was intrigued to hear more.

This led me to discover more about electroculture from the 1700s and connect the historical fascination with people ‘singing’ to plants, using natural elements such as copper to assist the health of plants, and how plants react to sound, light, and vibration. Just like us.

Before we get deeper into this, here’s a video from the summer of 2023 with our own findings so far using basic electroculture tools.

As you can see from our simple British garden experiment, the plants that had copper antennae in their soil grew faster and more robust than those that were planted without.

The larger tomato plants were planted in even less soil than those without an antenna, and were clearly in a league of their own. It is quite phenomenal to see this finally work live in our own backyard.

Let us now dive into the lesser-known field of plant electrophysiology and its practical application in farming, exploring the hidden power of plants and how electrical stimuli can enhance their growth and productivity.

What is Plant Electrophysiology?

Plant electrophysiology is the scientific discipline that investigates the electrical properties and phenomena in plants. It involves the study of ion movements and electrical signaling at various levels, from individual cells to entire plant tissues. Just like humans and animals, plants possess membranes that control the flow of ions, generating electrical potentials and currents within their cells.

Unearthing the Historical Root:

The roots of plant electrophysiology trace back to 1749 by Dr. Mainbray in Edinburgh, Scotland, whose experiment proved that electroculture could help plant growth, as you can see in this paper.

Then in the late 18th century, trailblazing scientists such as Luigi Galvani's experiments explored the effects of electricity on muscle contractions, while Alexander Gurwitsch's discoveries in the early 20th century highlighted the existence of biological radiation, also known as "mitogenetic radiation." These early revelations paved the way for further investigations into the electrical properties of plants.

In 1925, French scientist Justin Christofleau attracted considerable attention when he grew crops of enormous vegetables. (photo).

Another phenomenal discovery was also observed when plants situated near electrified train tracks, or in areas that experienced lightning strikes, seemed to grow better and healthier. Electromagnetic fields and a conductor, or antenna to utilise this free energy helped plants grow healthier.

The Science Behind Electroculture:

How does it work?

The concept revolves around the idea of using electrical stimuli to stimulate plant growth and enhance crop yield. By applying controlled electrical currents or fields to plants, researchers have observed significant improvements in various aspects of plant physiology. For instance, electrical stimulation can modify ion fluxes within cells, triggering the release of certain growth-promoting hormones or optimizing photosynthetic activity.

Recent Findings and Advancements:

Advances in technology and research techniques have provided us with deeper insights into plant electrophysiology. Scientists are now able to measure membrane potentials, ion fluxes, and transmembrane ion gradients with greater precision.

Modern studies have demonstrated the positive effects of electroculture on plant development, stress tolerance, nutrient uptake, and overall productivity.

These findings offer exciting possibilities for sustainable agriculture, where electroculture practices may contribute to increased crop yields and reduced reliance on chemical interventions.

Just look at the size of the yields! Photo from https://www.electroculture.life/

Future Prospects:

As we look to the future, the field of plant electrophysiology holds tremendous potential for further exploration. Researchers are striving to uncover the intricacies of electrical signaling in plants and decipher the molecular mechanisms behind these phenomena. With ongoing advancements in technology and interdisciplinary collaboration, the integration of electroculture practices into conventional farming techniques may lead to more resilient crops, improved food security, and a more sustainable, and cleaner approach to agriculture.

Conclusion:

In the world of electroculture and plant electrophysiology, electricity breathes life into the wonders of plant growth and productivity. Historical breakthroughs and current research shed light on the power of electrical stimuli in optimizing agricultural practices.

The untapped potential of electroculture offers a promising path toward sustainable farming, where harnessing the electrical properties of plants could pave the way for healthier crops and a greener future. And it is so easy to construct at a basic level, that anyone can practice it.

There are many theories and debates on what copper wire to use and in what length, thickness, and size, or even the use of other conductible elements including magnets.

Do your own research from here and discover what works for you. It's a lot of fun!

So, the next time you see a plant in your garden swaying to a gentle breeze, remember the hidden electric symphony thriving beneath its surface – a harmonious collaboration of nature and science, bringing us one step closer to a flourishing ecosystem.

Look out for a documentary coming this winter on this very subject...

Finally, you can learn more about using natural elements like copper today by reading about how Colloidal Silver works for human health in nanoparticle form.

When electrically charged nanoparticles of Silver enter the human body, bad bacteria are destroyed as the charged nanoparticles sweep our system in search of negative ions.

Bad bacteria carry more negative than positive ions. Silver ions are attracted to negative ions, surrounding them, and destroying them.

Colloidal Silver is a natural antibiotic that leaves good bacteria to work for us and is a must-have for all households to prevent and to battle illness using the power of electricity. You can also use this for plant health too. Just add some Colloidal Silver to your vase water the next time you buy flowers and see if they last longer!

Read all about how this can help you and your family this winter here.

- Zac