FR2597700A1 - PROCESS FOR MAGNETIC SEEDS OR PLANTS OF PLANTS. - Google Patents

Abstract

PROCESS FOR THE PRODUCTION OF MAGNETIZED SEEDS, INCLUDING ARTIFICIAL SEEDS, PLANTS, BULBS, ETC. BY STERILIZATION FOLLOWED BY WASHING WITH WATER, THEN DESICCING AND MAGNETIZING BY MEANS OF A MAGNET OR AN ELECTRO-MAGNET OR A MAGNETIZER SERVING TO OBTAIN PERMANENT MAGNETS.

Description

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  The present invention relates to the field of plant seeds.

  Until now, to accelerate the development of the seeds, one cultivated in greenhouses or used other means to raise the temperature, or one brought them water in abundance, but that does nothing but accelerate the seed development and it doesn't always follow that plants

  thus cultivated resist better and keep longer after harvest.

  As a result, many plants with reproductive defects are thus maintained, which leads to a decrease in the numbers of flowers,

especially tree flowers.

  This invention provides a solution to the disadvantages of the above, and has

  object of improving the development and reproduction of seeds by activating their constituents.

  The elements of the seeds include, in addition to the 6 elements which are carbon, hydrogen, oxygen, nitrogen, phosphorus and sulfur, alkaline earth metals such as magnesium and calcium, as well as trace elements , such as iron, manganese, copper,

zinc, molybdenum and boron.

  Among these elements, during the transformation process by which the seeds grow, the trace element remains in the state of a complex in which it is linked to an organic constituent, and as oxygen activator it plays a important role in the reactions of the metabolism of the plant, and by chalionion serves to maintain a better order of the structure of the organism, serving in particular for the absorption, migration and morphogenic accumulation of the various nutritive elements of plants, and thus it has an extremely important physiological role. Among the mineral elements indicated, to explain the physiological action of iron, we can say that it is found in each segment of cormophytes (stem plants) and preferably in the tissue of the meristems of the terminal and lateral buds and the young leaf. in development, and as a constituent element of various proteins it plays an important role in physiological processes such as respiration and synthesis of chlorophyll. In the case of iron deficiency, the decrease in the content of iron-containing proteins leads to a lowering of the metabolism, and also, with regard to physiological function, a drop in respiration, photosynthesis and nitrates reduction capacity, and cessation

of cell division.

  As we have just said, the function of iron in the plant is extremely important, and an activation of this element thus makes it possible to accelerate the growth of plants, and moreover it reinvigorates its reproduction. This invention, by magnetizing the iron in the seed, activates its migration therein. EXAMPLE 1:

  Magnetized bean seeds and normal seeds are grown in a greenhouse at a temperature of the greenhouse and of the greenhouse soil of 20 C.

  Form: "KUROKINTOKI" Seeds sown on September 15 Seeds rendered magnetic Germination Time in days Flowering Vegetables (fruits Number of before re-or pods) harvest days harvested 4 40 57 flowers 18 per foot per foot Normal seeds Germination Time in days number of before the stay

52

EXAMPLE 2:

  Magnetic soybeans and normal seeds are grown in a greenhouse at a temperature of 10 inside the greenhouse of 25 C Form: "KOSODEFURI" Seeds sown on August 25 Seeds rendered magnetic Germination Time in days Vegetables (fruits number before flowering or pods) harvest days 87 flowers per plant 28 per plant

I X. ___ _ ___ _

  Germination number of days Normal seeds Time in days before harvest Vegetables Flowering harvested 76 flowers per foot 21 per foot The seeds which are used in these 25 examples are first sterilized in a liquid for minutes then they are washed with water, they are dried and placed for about 10 minutes on a rendered plate

  magnetic with an electromagnet for example.

  With regard to the magnetized seeds above, the activation of iron, the mineral constituent of the seeds, clearly accelerates their development,

  improves reproduction and increases yields.

Other advantages of the invention:

Fresher plants.

  Plants that keep longer after harvest.

  From the middle of the growing period, the plants become more lively and flourishing, and at low temperatures, in the cold season, when there is a lot of rain and the soil is very humid, the development of the flower pistillate and pollen volume of the staminate flower are abundant, without any loss of seeds after pollination, and compared to untreated seeds growth acceleration

is stimulated.

  As a result, the leaf vegetables, which require six months of cultivation in the winter period, can be harvested after about five months of cultivation

  only if the seeds have been magnetized.

  For flowering plants too, compared to untreated seeds, the petals are

  much larger and the color is brighter and more brilliant.

Claims (1)

CLAIM CLAIM   Method for producing seeds, including coated seeds and magnetized plants, by sterilization followed by washing with water, then drying and magnetization.