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The homeopathic active agent complex BIPLANTOL® contains in a homeopathic dynamic form (D6-D100):
Plant – macro nutritions
Nitrogen (N) is a part of all living cells and is an essential component of all proteins, enzymes and metabolic processes involved in the synthesis and transfer of energy. A surplus of nitrogen leads to an excessive growth, the plants become weak and have less resistance to diseases and frost.Phosphorus (P) is of importance for cell division; proper plant maturation and protein in the seeds. It encourages blooming, root growth, vitamin synthesis and stress tolerance. The digestion of fodder crops is enhanced. Phosphorus is an essential part of the process of photosynthesis and is involved in the synthesis of oils and hydrocarbons.Potassium (K) is of importance for cell division, the building of proteins, improvement of fruit quality and disease prevention. Potassium is an essential part of the process of photosynthesis and cell division and is involved in the synthesis of oils, sugars and starches. It regulates the absorption of Calcium, Nitrogen and Sodium.Magnesium (Mg) is the central element in the production of chlorophyll in all green plants. It is necessary for the utilization of Nitrogen, Phosphor, Sulfur as well as in the production of proteins. It also helps activate many plant enzymes needed for growth. It adjust imbalances in acidification. Calcium (Ca) regulates the acid-base equilibrium, it helps to overcome the symptoms of poisoning in plant tissue and is an essential part of the plant cell wall structure. It is also thought to counteract the effect of alkaline salts and organic acids within the plant. Calcium provides for the normal transportation and retention of other elements as well as strengthening the plant. A surplus of Calcium leads to an encrusted soil, a diminished growth, and it counteracts the Magnesium effects. Sulfur (S) is an essential plant nutrient for the production of protein, especially in legumes. It promotes the activity and development of enzymes and vitamins and helps in chlorophyll production. Root growth and seed production is promoted. Sulfur is conducive to vigorous plant growth and resistance to low temperature.
Trace elements - micro nutritions
Iron (Fe) is essential for the production of chlorophyll, as well as the oxidation and production of carbohydrates. It is the main catalyst for photosynthesis. A surplus of iron in the soil leads to Manganese deficiency. A surplus of lime causes the physiological fixing of iron. Copper (Cu) is of importance for reproductive growth. It is an important catalyst in sandy, muddy and peat soil. It forestalls abnormal growth resulting from a surplus of nitrogen. Cobalt (Co) acts as a regulator between oxidation and reduction in cellular respiration. Manganese (Mn) interacts with enzyme systems involved in the breakdown of carbohydrates, photosynthesis and nitrogen metabolism. Manganese activates a number of enzymes in plant cells. It promotes bacterial growth in the soil. Together with iron, cobalt and copper, it counteracts abnormal growth resulting from a surplus of nitrogen. Boron’s (Bo) main functions relate to cell wall strength and -development, as well as cell division. This element is essential for seed- and fruit development. Boron aids the production of sugar and carbohydrates as well as their transportation. It is especially important for apple trees and legumes (alfalfa). Zinc (Zn) is an bio-catalyst for all kind of plants and is accumulated in fungi. Zinc is essential for the transformation of carbohydrates and regulates the consumption of sugars. It is part of the enzyme systems which regulate plant growth. Zinc deficiency symptoms occur after intense use of NPK-fertilizers. Vanadium (V) is essential for the fixing of nitrogen especially in legumes. Molybdenum (Mo) assists in the utilization of nitrogen. The first indication of a deficiency is general interveinal chlorosis and necrosis of the older leaves. Silicon (Si) is a essential element for the growth of the epidermis of the plants as well as for the longitudinal growth of the plant stems. The vegetative growth and the stability of plants is also enhanced. Germanium (Ge) when organically bound enhances the availability of oxygen and has a vitalizing effect on all plant parts. This results in a reduces sensitivity to low temperatures in plants. Uronic acids (plant mucilage) assists in the decontamination of plants and microorganisms. They initiate the sap fluxion and enhance the nutrient uptake.
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Note: All prices in US Dollars
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