Prehistoric code FIOS Greenbox for experimental purposes (according to Dr. Guido Ebner and Heinz Schürch)
KenFM in conversation with: Daniel Ebner (The Prehistoric Code)
How the “prehistoric code” FIOS Greenbox works
- The germination of plant seeds (e.g. tomato seeds) or tubers (e.g. potatoes) is accompanied by the activation of an electrostatic field.
- The germination of the seeds or tubers under changed electrostatic field strength leads to a change in the phenotype of the adult plant, ie the appearance and/or the fruit yield of the adult plant changes after this pretreatment.
- The plants increase the utilization of the nutrients offered for their growth.
- The increased electrostatic field strength compared to the environment improves the defense behavior of plants against diseases.
- The fertility rate of daughter seeds, which are the seeds from the fruits of the treated plants, is increased.
- Important: the phenotypic response is higher in heavily bred plants than in wild-type plants!
The FIOS Greenbox for experiments at home
Nuoviso | The prehistoric code - holistic vs. Faustian science
WIRES stands for "Food in Open Source“. Open source is a well-known technology in software development. It means that no one can have a private claim to the technology or software, but everyone can participate in its development and improvement.
The FIOS Greenbox is a tool to increase fertility (reproductive power) via the static electric field and to achieve an improved harvest. The seeds remain in the user’s hand.
The FIOS Greenbox is made from well-known standard materials used in our research. It consists of a plexiglass housing, a drawer and two perforated plates as poles, with the negative pole at the top and the positive pole at the bottom. The high-voltage source, which is also integrated, is operated from the outside using the included 12-volt voltage converter. This can be connected to a 220 or 110 volt socket. However, it is also possible to hang the device on a solar panel with a downstream 12-volt battery or a car battery.
The FIOS Greenbox is easy to use
- Operating the FIOS Greenbox is easy. You remove the drawer and moisten a single cloth with drinking water or water from a running body of water. Sterilized, deionized, distilled or waste water should not be used. The user then places the moistened fleece cloth in the drawer and sprinkles the plant seeds over it in a single layer if possible and closes the drawer.
- If you choose the power supply head for the power supply, it is possible to use the yellow round screw head to set the output values (=input values for the box) 12 V, 9 V, 6 V, 3 V and 0 V using a key provided. This results in field strengths between the plates in the box of 1500 volts/centimeter, 1250 V/cm, 750 V/cm and 500 V/cm (?). Last but not least, the power supply is connected to the 220 V power socket (or 110 V in the USA or Canada).
- The seeds are left in the static electric field until the seedlings show their first shoots. The user then plants the germinated seeds in a balcony trough, pot or a prepared garden bed. For the first attempt, we send cress seeds together with the FIOS Greenbox, which should sprout within 2 to 3 days. Based on the experience of our previous applications, we have put together a small compilation of the static field strengths in the following table.
Background knowledge about the FIOS Greenbox
At the end of the 80s, Swiss researchers Dr. Guido Ebner and Heinz Schürch made a sensational discovery. In laboratory experiments, they exposed grain and fish eggs to a simple high-voltage field in which no electricity flows, the “electrostatic field”.
Growth and yield could be massively increased in this so-called “E-field”. At the same time, completely unexpectedly, “prehistoric forms” grew up that have long since become extinct:
- A million-year-old fern,
- Ancient corn with up to twelve cobs per stalk, as it once sprouted in South America
- the extinct rainbow trout with salmon hooks.
Various institutions tried to carry out further research into the basics, some with success, some without success.
The experiments have continued in recent years. In spring 2013, tests were started with corn from Guatemala, with balsa wood from Paraguay and with grape seeds from Piedmont. Further experiments are being planned, for example with saffron, rice and other types of grain.
It is gratifying for all researchers and interested friends involved that the Green Box has been in production since the end of 2013 and is available for allebox. This allows the germination phase of the seeds to be standardized.
Seeds from the E field produce more yield than modern seed varieties and still do not require more fertilizer and help to avoid the need for pesticides.
In addition, genetic integrity is maintained because no genetic manipulation is carried out. It can be used by anyone at minimal cost.
Experiments have shown that the electrostatic field also has a positive effect on fish eggs. For this reason, a special box was produced for the treatment of fish eggs. This box is now also available commercially and is particularly interesting for fish farmers.
We would also like to recommend the book “The Prehistoric Code” by Luc Bürgin, ISBN 978-3776625349, published by Herbis-Verlag, which describes the history of research into the behavior of biological organisms under the influence of a static electric field. The book is available in bookstores, at the GE Institute in Basel or through FIOS GmbH in Zofingen.
Further information can be found at www.urzeitcode.com.
Field strengths, voltages and seed bases for different plants
Below you can see which field strengths need to be set for which plants. To set the desired field strength, set the voltage specified in the table below on the power supply. That's it.
Expected results of using the FIOS Greenbox on the following plants
- Tomatoes Stronger growth, thicker stem growth than with untreated seeds, deeper green coloring of the leaves, more fruits, fertile tomato seeds in the fruits
- Potatoes Increased tuber formation, increased yield of around 20%
- Corn Stronger growth, thicker stem growth than with untreated seeds, more corn cobs, increased yield of up to 40%, no difference in ingredients compared to controls
- Wheat Multi-stemmed, bush-like growth starting after 4 weeks, ear formation on each shoot, simultaneous ear ripening, less spray required, better nutrient utilization, increased yield of up to 20%, increased values for protein content in the ingredients compared to controls
- other plants You can try out other plants yourself and publish them in our forum with photos and descriptions.