Exploring the Impact of Paramagnetism on Agriculture: The Basalt Flour Revolution

At Vetonek.com, we are always at the forefront of agricultural innovations that promise not only to improve the efficiency of growing practices, but also their sustainability. One of these innovations is the use of basalt flour, a byproduct of grinding basaltic volcanic rocks, which is gaining attention for its benefits in agriculture. Beyond its known richness in essential minerals, such as silicon, magnesium, calcium and iron, basalt flour stands out for its paramagnetic properties, which offer untapped potential for improving soil vitality and stimulation of plant growth.

Paramagnetism and its Application in Agriculture

Paramagnetism, a type of magnetism that manifests itself in the presence of an external magnetic field, is a property of certain materials that allows them to be attracted by magnetic fields. Measured in units of microhms (µCGS) on the CGS (centimeter gram second) scale, the paramagnetism of basalt flour, derived from its volcanic origin and mineral composition, presents a series of advantages for agriculture:

Enhanced Microbial Activity: The ability of basalt to influence soil microbial activity is notable. By stimulating beneficial microorganisms, the decomposition of organic matter is facilitated and the availability of nutrients is improved, creating a more conducive environment for plant growth.

Stimulation of Plant Growth: It has been observed that the magnetic fields generated by paramagnetic materials such as basalt flour can promote more robust and healthy development in plants, thanks to better absorption of nutrients and greater cellular activity.

Electroculture: The practice of electroculture, which uses electric and magnetic fields to improve plant growth and health, benefits significantly from the use of basalt flour. Its paramagnetism contributes to creating a favorable energy environment for plant development.

The Importance of the Paramagnetic Value Scale

The Paramagnetic Value Scale according to Phil Callahan

General Scale of Paramagnetic Values ​​(Based on Interpretations of Callahan's Principles)
Low Paramagnetism (<200 CGS): Materials with values ​​below 200 on the Centimeter-Gram-Second (CGS) scale are considered low paramagnetism. These materials have a limited ability to improve soil energy or positively influence plant growth.

Moderate Paramagnetism (200 - 900 CGS) : Materials in this range offer moderate potential for soil improvement. They can be useful in certain conditions, especially if combined with other soil management practices.

High Paramagnetism (900 - 2000 CGS) : Materials with values ​​in this range are considered highly paramagnetic and can have a significant impact on soil health and plant growth. They are ideal for incorporation into regenerative agriculture programs.

Very High Paramagnetism (>2000 CGS): Values ​​above 2000 CGS indicate exceptionally high paramagnetism. Materials with these values, such as certain types of basalt, are extremely beneficial to soil, promoting optimal soil structure, microbial activity and nutrient availability.

Examples of Materials and Their Approximate Paramagnetic Values
Basalt Rock Flour : It can vary widely, but some high-quality basalts have values ​​as high as the aforementioned 5290 CGS, making them exceptionally valuable for soil improvement. Basalt flour, with values ​​that can exceed 5290 CGS, is positioned as an invaluable resource for soil improvement and regenerative agriculture.

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