Escala-de-paramagnetismo-del-basalto-en-agricultura-de-Phil-Callahan Mineravi

Basalt paramagnetism scale in Phil Callahan agriculture

Discovering the power of paramagnetism in agriculture with basalt flour

In the world of sustainable agriculture, the search for innovative methods to improve soil fertility and stimulate plant growth is constant. Among the various scheduled strategies, basalt flour emerges as a revolutionary component, thanks not only to its wealth in essential minerals, but also to its unique paramagnetic properties. On mineravi.com, we immerse ourselves in the fascinating world of basalt paramagnetism, guided by the principles of Phil Callahan and the science behind the CGS scale (second gram centimeters), to reveal how this volcanic material can be the perfect ally for the Future agriculture.

Paramagnetism: a natural phenomenon at the service of agriculture

Paramagnetism, that capacity of certain materials to be attracted to external magnetic fields, finds one of its most promising applications in basalt flour. Originally from basaltic volcanic rocks, mineravi.com basalt flour not only provides nutrients such as silicon, magnesium, calcium and iron to the ground, but also offers an exceptionally high paramagnetic value, with measurements that reach up to 5290 µcgs. This value not only exceeds the usual standards, but also opens new avenues for the improvement of soil vitality through electroculture and other innovative practices.

Basalt paramagnetism benefits in agriculture

Improvement of microbial activity: The positive influence of basalt flour paramagnetism in the microbial activity of the soil is undeniable. By stimulating beneficial microorganisms, the decomposition of organic matter is facilitated and nutrient availability is improved, creating a richer and more healthy environment for plants.

Stimulation of plant growth: The magnetic fields generated by the paramagnetic basalt promote a more robust and healthy development of plants. This stimulation translates into a better absorption of nutrients and optimized cell activity, key factors for agricultural success.

Electroculture: Integrating basalt flour into electroculture practices means taking advantage of electric and magnetic fields to enhance the growth and health of plants. Basalt paramagnetism helps create a favorable energy environment, making a difference in agricultural productivity.

The paramagnetic values ​​scale according to Phil Callahan

General scale of paramagnetic values ​​(based on interpretations of Callahan's principles)
Under paramagnetism (<200 CGS): Materials with values ​​below 200 on the centimeters-gram-second (CGS) scale are considered under paramagnetism. These materials have a limited capacity to improve soil energy or positively influence plant growth.

Moderate paramagnetism (200 - 900 CGS): The 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 for the soil, promoting an optimal soil structure, microbial activity and nutrient availability.

Examples of materials and their approximate paramagnetic values
Basaltic rock flour: It can vary widely, but some high quality basalts have values ​​as high as the aforementioned 5290 CGS, which makes them exceptionally valuable for soil improvement. Basalt flour, with values ​​that can exceed 5290 CGS, it is positioned as An incalculable resource for soil improvement and regenerative agriculture.

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