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Fulvic Acid Minerals Information

Fulvic acids defined

Fulvic acids:  What are they?  Where do they come from?  What can they do?  Why do we need them?

Though virtually unknown to the layman, there is perhaps no substance more vital to life, (with the possible exception of oxygen and water) than the biologically derived compounds known as Humic and Fulvic acids. Fulvic acids enter into all life processes within plants and animals and wear many hats. When necessary; they act as free-radical scavengers, supply vital electrolytes, enhance and transport nutrients, make water wetter, catalyze enzyme reactions, increase assimilation, stimulate metabolism, chelate essential major and trace elements making them organic, and demonstrate amazing capacity for electrochemical balance.

Unknown Fulvic

Despite the fact that scientists world wide have published thousands of papers relative to fulvic acids and their effect on living matter, they have received limited public exposure because of the inability to produce and commercialize these substances. Researchers consider water extracts of 30 parts per million (ppm) as being a high concentration. For obvious reasons the knowledge of fulvic acids have been confined primarily to the scientific community.

How Are They Formed?

Fulvic acid is a derivative of microbial degradation of humic substances. Microorganisms are essential to the process. Each gram of healthy top soil has in excess of four billion microorganisms that participate in manufacturing bio-chemicals essential to healthy plants and animals. If they were to fail our lives would cease. A better perspective of their importance can be gained by looking at the work they do. Microorganism activity in preparing one acre of top soil, expends the equivalent energy of 10,000 people doing the same amount of work in the same amount of time.

What Humic Substances Do in the Soil

Scientists claim organic substances stimulate plant cellular growth and division, including auxin type reactions. They enhance plant circulatory systems and promote optimum plant respiration and transportation systems. They decrease plant stress and premature deterioration. They dramatically improve seed germination and promote greater fibrous root growth. They increase the size and numbers of legume root nodules and increase resistance to drought and insect infestation.

High molecular weight humic substances serve as food stock for microorganisms. . .which in turn break them down into smaller units of high energy substances called fulvic acid. Humic substances of high molecular weight, including humic acids, alter the physical characteristics of the soil while low molecular weight fulvic acids are involved in biochemical reactions that influence the plant's metabolic process. Both are indispensable.

The Fulvic Miracle

In addition to duplicating many of the positive functions of humic acid, fulvic acid will:

         Stimulate metabolism

         Give positive effect on RNA & DNA

         Act as a catalyst in respiration

         Increase metabolism of proteins

         Increase activity of multiple enzymes

         Enhances the permeability of cell membranes

         Enhance cell division and cell elongation

         Aid chlorophyll synthesis

         Increase drought tolerance, and prevent wilting

         Increase crop yields

         Assist denitrification by microbes

         Buffer soil pH

         Contribute electrochemical balance as a donor or an acceptor

         Synthesize new minerals

         Chemically weather inorganic substances

         Decompose silica to release essential mineral nutrients

         Detoxify various pollutants (pesticides, herbicides, etc.)

 

The two major life functions which
cannot be duplicated by man are
Photosynthesis and Humification

Who and What are you?

Biologically you consist of varying amounts of the following major and minor elements;

Calcium
Carbon
Chlorine
Hydrogen
Iron
Iodine
Magnesium
Sulfur
Oxygen
Phosphorus
Potassium
plus traces of aluminum, bromine, cobalt, copper, fluorine, manganese, nickel, silicon, sodium, zinc, and all the additional (as yet) undiscovered trace elements being added to the list as our knowledge increases.

The Body Cellular

The elements you are composed of (plus or minus a few billion) are components of approximately 60 trillion cells. An average cell contains about 1 quadrillion molecules, which is about 10,000 times as many molecules as the milky way has stars. Individual cells when properly nourished, are capable of producing many of their own amino acids, enzymes, and other factors necessary for all metabolic processes. Each cell, in addition to other processes, burns its own energy, maintains itself, manufactures its own enzymes, creates its own proteins, and duplicates itself. It is essential to understand that the total metabolism of the body is the sum of the metabolic operations carried on in each individual cell.

Growth & Maintenance Nutrients

Scientist have identified at least 90 growth and maintenance nutrients which must be continuously supplied to the body to sustain healthful life. These growth and maintenance nutrients include amino acids, major and trace minerals, vitamins and other nutritional factors. When these factors are supplied to our cells, the cells then create the building blocks for the total metabolic machinery of our life process. The building blocks present in the metabolic machinery of human beings are (in the great majority of cases) the same as the building blocks contained in the metabolic machinery of other organisms of extremely different types.

Organisms vary in their capacity to produce some of these building blocks internally. Some organisms are capable of producing all amino acids within their cells. Humans can produce all but eight. Some organisms can produce many of the vitamins within their cells. We can only produce one. The very complex processes of all metabolic functions are carried on within the cell. If we fail to supply the cell with the essential growth and maintenance nutrients we will experience a breakdown of these functions. When this breakdown is substantial we have the onset of disease or the manifestation of some related defect.

Nutritional Deficiencies

Total deficiencies in one or more of the growth and maintenance nutrients which human cells need for healthful metabolism is now a rare occurrence, but substantial deficiencies in the growth and maintenance nutrients is a common factor to every degenerative disease we experience.

Sick Soils, Sick Plants, Sick People

All naturally fertile soils contain adequate amounts of humic and fulvic acids produced by resident microbes within the soil. Humic and fulvic acids assist the plant in obtaining its complete nutrition. Our modern agriculture aims (with few exceptions) at one goal which is market. Food quality is sacrificed for food quantity. Since the farmer is paid by the bushel, yield is paramount to nutritional content. The farmer in his frantic effort for yield, has succumbed to the Pied Pipers of agro-chemical companies with products to sell. He is further decoyed by bad advice from county agents and higher schools of learning that protect the "grant" status of moneys received from these same agro-chemical companies, who advocate the application of excessive amount of nitrate fertilizers to the soil. Such practices stun and destroy the indigenous microbial life within the soil. When microbial life is inhibited or destroyed, vital humic and fulvic acids are exhausted.

Gone Are The Minerals

When microbes are depleted from the soils, they are no longer present to convert inorganic minerals into organic minerals needed by plants. Excessive use of nitrate fertilizers inhibits the formation of normal plant proteins and stimulates an over-abundance of unused amino acids that attracts insects. Since pests were created to eat diseased plants this introduces the ideal environment for increased infestation because of increased insect food supply. The farmers reaction is more pesticides and fungicides to save his infested crop. This in turn inhibits or destroys even more vital microorganisms that are essential to mineral conversions to plant nutrients.

Unsafe Foods

These deficient, pesticide laden products are turned into "cash" which the farmer thinks is the bottom line. Lacking in organic trace elements and other nutritional factors, but long on chemical residues from pesticides, insecticides, herbicides, these nutritionally hollow products end up on the tables of America. Without taste, and deficient in organic minerals and nutrients, we peel, boil and overcook what remains and ask "why do I hurt?"

Can Good Foods Be found?

A very small percentage of the agricultural lands of America are fertile enough to produce nutritious and healthy foods. An honest effort in attempting to select a healthful diet from grocery shelves may be a nutritional disaster. Unless you are fortunate enough to organically grow your own foods, supplementation is a necessity.

The Vitamin Connection

In this century common vitamin deficiency diseases have been reduced dramatically due to our awareness of the role of vitamins in nutrition. New breakthroughs are just beginning to emerge in the use of increased dosages for treatment of some ailments. It should be noted however that vitamins cannot complete their function in the cell's metabolism without the presence of certain minerals. This may explain the fascinating effects of humic and fulvic acids at work in living organisms. Fulvic acid chelates and binds scores of minerals into a bio-available form use by cells as needed. These trace minerals serve as catalysts to vitamins within the cell. Additionally, fulvic acid is on to the most efficient transporters of vitamins into the cell.

The Enzyme Connection

An enzyme is a catalyst that does not enter into a reaction but speeds up or causes a reaction to take place. Enzymes are complex proteins. The burning of glucose in cells for instance, requires the action of several enzymes, each working on the substrate of the previous reaction. Each cell of the body (when properly nourished) is capable of producing the enzymes needed for complete metabolism. Research has shown that fulvic acid improves enzymatic reactions in cells and produces maximum stimulation of enzyme development. The fulvic acid molecule often contains within its structure coenzymes and important factors which the cells may utilize in stimulation the manufacturing of enzyme reactions and formation. Leading scientists, such as Roger J. Williams, recognize that:

"the building blocks present in the metabolic machinery of human beings are, in the great majority of cases, exactly the same as the building blocks contained in the metabolic machinery of other organism of extremely different types."

Fulvic acid will in all probability, be found to be one of the key factors of enzyme reactions with all living cells.

Free Radicals & Antioxidants

Free radicals are highly reactive molecules or fragments of molecules that contain one or more unpaired electrons. They circulate through the body causing great mischief in bonding to and injuring the tissues. In addition to destroying tissue, they magnify the probability that injured cells will become susceptible to a great many infections and diseases, or mutate and cause cancer.

Free Radical Scavengers

Our first line of defense against free radicals is a generous supply of free radical scavengers called antioxidants. Dramatic increases of free radicals in our air, food and water in recent years have put a tremendous strain on the body's natural defense mechanisms. When we exceed our capacity to resist, cell membranes and tissues are exposed to the devastating onslaught of free radicals which combine with the lipid portion of cell membranes to greatly lower their resistance to carcinogenic pathogens.

Super Antioxidants

In recent years frantic efforts have been make to locate and isolate compounds with extraordinary affinity for free radicals. Entire industries have evolved around such efforts, with nearly every vendor of health food products offering suitable solutions. Because of the limited public knowledge concerning the great contribution fulvic acid plays as a bi-directional super antioxidant, we need to consider certain facts.

Fulvic Acid and the Free Radical Connection

To gain knowledge of how antioxidants tie up free radicals we must understand their workings, and explode a general misconception. For antioxidant to bind a free radical the antioxidant molecule must have unpaired electrons of equal and opposite charge to that of the unpaired electrons of the free radical. In a sense the free radical scavenger is its self a free radical or it could not mate and neutralize the destructive effects of free radicals.

Who Wears the White Hat?

We have found that fulvic acid is a powerful, natural electrolyte that can act as an acceptor or as a donor in the creation of electrochemical balance. If it encounters free radicals with unpaired positive electrons it supplies an equal and opposite negative charge to neutralize the bad effects of the free radicals. Likewise, if the free radicals carry a negative charge, the fulvic acid molecule can supply positive unpaired electrons to nullify that charge.

Antioxidants and Beyond

Being a bio-available chelated molecule that can "also" chelate, fulvic acid wears the white hat. As a refiner and transporter of organic minerals and other cell nutrients, it has the ability to turn bad guys into good guys by chelating and humanizing free radicals. Depending upon the chemical makeup of the free radical, they can be incorporated into and become a part of life sustaining bio-available nutrients. They may become an asset instead of a liability. In the event that the chemical makeup of the free radical is of no particular benefit, it is chelated, mobilized, and carried out of the body as a waste product.

The Human Experience

Although being made prior to the discovery and naming of fulvic acid, the late Dr. Clyde Sandgrin publicly stated:

"If I had to chose between the liquid mineral and electricity, electricity would have to go."

Reported benefits are little short of astonishing. For internal use they are:

  Increased energy

  Alleviates anemia

  Chelates body toxins

  Reduces high blood pressure

  Potentizes vitamin & mineral supplements

  Magnifies the effect of herbal teas and tinctures

  Chelates all monovalent and divalent metals

  Is a powerful natural electrolyte

  Restores electrochemical balance

  Stimulates body enzyme systems

  Helps rebuild the immune system

  Reported external beneficial use in:

  Treating open wounds

  Healing burns with minimum pain or scarring

  Eliminating discoloration due to skin bruises

  Killing pathogens responsible for athletes foot

  Acting as a wide spectrum anti-microbial and fungicide

  Treating rashes and skin irritations

  Helping to heal cuts and abrasions

  Helping heal insect bites and spider bites

  neutralizing poison ivy and poison oak

References:

Senesi, N. (1990) Analytica Chimica Acta, 232, 51-75. Amsterdam, The Netherlands: Elsevier.

Backer, W. E. (1973) Geochimica et Cosmochimica Acta, 37, 269-281.

Prakash, A. (1971). Fertility of the Sea, 2, 351-368.

Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Springer-Verlag.

Buffle, J. (1988). Complexation Reactions in Aquatic Systems: An Analytical Approach. Chichester: Horwood.

Christman, R.F., & Gjessing, E. T. (1983). Aquatic and Terrestrial Humic Materials. The Butterworth Grove, Kent, England: Ann Arbor Science.

California Fertilizer Association. (1985). Western Fertilizer Handbook. Danville, Il: Interstate.

Greenland, D. J.. (1965). Soils and Fertilizers. 35(5), 415-532.

Wilkins, M.D. (Ed.). (1984). Advanced Plant Physiology. Marshfield, MA: Pitman.

Kononova, M. M. (1966). Soil Organic Matter. Elmsford, NY: Pergamon.

Salk, P. L., & Parker, L. W. (1986). A New Agricultural Biotechnology: Potential Applications in Arid and Semi-Arid Zones. American Association for the Advancement of Science and the Government of LaRioja, Argentina.

Jackson, William R. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning. Evergreen, Colorado: Jackson Research Center.

Malcolm, R. D., & Vaughan, D. (1979). Comparative effects of soil organic matter fractions on phosphatase activities in wheat roots. Plant and Soil, 51, 117-126. Also: Mato, M. C., Gonzales-Alonso, L. M.,& Mendez, J. (1972). Inhibition of enzymatic indoleacetic acid oxidation by fulvic acids. Soil Biology and Biochemistry, 4, 475-478.

Simonson, R. W. (1959). Outline of a generalized theory of soil genesis. Soil Science Society America Proceedings, 23, 152-156.

Ponomareva, V. V., & Ragim-Zade, A. I. (1969). Comparative study of fulvic and humic acids as agents of silicate mineral decomposition. Society Soil Science, 1, 157-165. (Trans. From Pochvovedenie. (1969), 3, 26-36).

Williams, Dr. Roger J. (1977). The Wonderful World Within You. Bio-Communications Press. Wichita, Kansas.

Chaboussou, F. (1980). Les Plantes Malades des Pesticides - Bases Nouvelles D'une Prevention Contre Maladies et Parasites. (Plants made sick by pesticides - New basis for the prevention of diseases and pests). Paris.

Senesi, N. (1990). Molecular and quantitative aspects of the chemistry of fulvic acid and its interactions with metal ions and organic chemicals: Bari Italy. Analytica Chimica Acta, 232, 51-75. Amsterdam, The Netherlands: Elsevier.

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