Uno Trace fulvinsyre

  • Kjøp 4 for Kr  311 hver og spar 12%
Kr  348

Tilgjengelighet: På lager

Bli den første som omtaler dette produktet

Oversikt

UnoTrace Fulvinsyre ny alkalisk forbedret versjon
Fulvinsyre – naturens mest perfekte mineralblanding

Jakten på et effektivt kosttilskudd som lett opptas i blodet og kan forsterke og bedre opptaket av andre tilskudd, drikker og kremer, går for fullt. Fulvinsyre (engelsk fulvic acid) seiler opp som en lovende og lite kjent kandidat. Internasjonale selskaper tilbyr til dels kostbare ”flaskevann”-løsninger med mineralblandinger som hevdes å gi stor helsegevinst. Antakelig er den beste, naturlige løsninga fulvinsyre iblandet rent vann (teksten er hentet fra artikkelen om Fulvinsyre i Helsemagasinet vitenskap og fornuft gå til vof.no for å lese hele artikkelen (fra 1.1.2017).

Mulige effekter ved bruk av fulvinsyre:

● Gir økt energi (stimulerer stoffskiftet)
● Stimulerer kroppens enzymproduksjon
● Forbedrer omdanning av proteiner, RNA-syntesen og øker mengden DNA i cellene
● Bidrar til bedre elektrolyttbalanse
● Bidrar til bedre elektrokjemisk balanse
● Kan øke det elektriske potensialet i cellemembranene
● Kelaterer (”fanger”) giftige materialer og metaller i kroppen
● Normaliserer blodtrykket
● Understøtter normal celledeling
● Motvirker blodmangel
● Bidrar til å gjenoppbygge et skadet immunsystem
● Motvirker virus og infeksjoner (antibakterielle, antivirale og antifungale egenskaper)
● Motvirker irritabel og lekk tarm og bidrar til bedre tarmflora
● Virker avgiftende
● Kan redusere stress og gi bedre søvn
● Forsterker og forbedrer opptaket av vitaminer og mineraler
● Forsterker effekten av urteteer og -tinkturer
● Løser opp silisium og gjør det mer tilgjengelig for kroppen (viktig bl.a. i tarmen)
● Bidrar til bedre pH-balanse i kroppen
● Kan gi bedre kognitiv helse og lindre tilstanden til blant annet Alzheimer-pasienter
● Reduserer forekomsten av frie radikaler og motvirker betennelser og smerter
● Utvortes har fulvinsyre vist seg å kunne motvirke utslett, kløe og andre hudproblemer

Det er også mulig å få oversendt en kopi av artikkelen pr. epost send en e-post til salg@unovita.com og spør om å få kopi av artikkelen om Fulvinsyre

12-health-benefits-of-fulvic-acid

Filer for nedlastning

 

Detaljer

Fulvic Acid -- what we know according to studies and lab experiments --

The electromedicalblog, lets discuss!

Promotes Electrochemical Balance As Donor Or Receptor

Fulvic acid is available at times as an electron donor and at other times as an electron acceptor, based on the cell's requirements for balance.[8] One of the reactions that occurs is always an oxidation reaction in which the chemical species loses electrons as a donor. The other reaction is a reduction in which the active species gains electrons as an acceptor.[9] A recent study of the binding of a donor molecule to fulvic acid in solution revealed direct evidence for donor-acceptor charge-transfer mechanisms. [10] Trace minerals in the fulvic acid electrolyte could also be beneficial in this process by serving as electrodes.[11]

One Of The Most Powerful Natural Free Radical Scavengers & Antioxidants Known.[12]

Free radicals of fulvic acid behave as electron donors or acceptors, depending upon the need for balance in the situation. [13] Fulvic acid can in the same way take part in oxidation-reduction reactions with transition metals.[14]

Complexes & Dissolves Minerals & Trace Elements[15]

Fulvic acid is especially active in dissolving minerals and metals when in solution with water. The metallic minerals simply dissolve into ionic form, and disappear into the fulvic structure becoming bio-chemically reactive and mobile. The fulvic acid actually transforms these minerals and metals into elaborate fulvic acid molecular complexes that have vastly different characteristics from their previous metallic mineral form. Fulvic acid is nature's way of “chelating” metallic minerals, turning them into readily absorbable bio-available forms. Fulvic acid also has the unique ability to weather and dissolve silica that it comes into contact with.

Enhances Nutrients[16]

Fulvic acid enhances the availability of nutrients and makes them more readily absorbable. It also allows minerals to regenerate and prolongs the residence time of essential nutrients. It prepares nutrients to react with cells. It allows nutrients to inter-react with one another, breaking them down into the simplest ionic forms chelated by the fulvic acid electrolyte.

Transports Nutrients[17]

Fulvic acid readily complexes with minerals and metals making them available to plant roots and easily absorbable through cell walls. It makes minerals such as iron, that are not usually very mobile, easily transported through plant structures. Fulvic acids also dissolve and transport vitamins, coenzymes, auxins, hormones, and natural antibiotics[18] that are generally found throughout the soil, making them available. These substances are effective in stimulating even more vigorous and healthy growth.[19] These substances are produced by certain bacteria, fungi, and actinomycetes in decomposing vegetation in the soil. It has been determined that all known vitamins can be present in healthy soil[20] Plants manufacture many of their own vitamins, yet these from the soil further supplement the plant. Upon ingestion these nutrients are easily absorbed by animals and humans, due to the fact that they are in the perfect natural plant form as nature intends. Fulvic acid can often transport many times its weight in dissolved minerals and elements.[21]

Catalyzes Enzyme Reactions[22]

Fulvic acid has close association with enzymes.[23] It increases activity of enzymes, and especially influences respiratory catalysts. Fulvic acids increase the activity of several enzymes including alkaline phosphates, transaminase, and invertase.

Increases Assimilation[24]

Fulvic acid metal organic complexes are of a low molecular weight[25], and because of this they are also of low molecular size, and are capable of a high degree of penetration into cells. Fulvic acid complexes and chelates are able to readily pass through semi-permeable membranes such as cell walls. Yet it is important to note that it has also been determined that fulvic acids not only have the ability to transport nutrients through cell membranes, they also have the ability to sensitize cell membranes and various physiological the membranes and various physiological functions as well.[26]

Stimulates Metabolism[27]

Fulvic acid appears to cause the genetic mechanism of plants to function at a higher level. It has been concluded that any means by which plant cells are exposed to fulvic acid can improve growth.[28] Oxygen is absorbed more intensely in the presence of fulvic acids.[29] Fulvic acid aids in penetrating roots and then quickly transports to the shoots of plants.[30] Fulvic acid relieves oxygen deficiency and increases the vital activity of cells. Fulvic acids change the pattern of the metabolism of carbohydrates, resulting in an accumulation of soluble sugars. These soluble sugars increase the pressure of osmosis inside the cell wall and enable plants to withstand wilting. Fulvic acid enhances growth and may stimulate the immune system.[31]

Detoxifies Pollutants[32]

An important aspect of humic substances is related to their sorptive interaction with environmental chemicals, either before or after they reach concentrations toxic to living organisms.[33] The toxic herbicide known as “Paraquat” is rapidly detoxified by humic substances (fulvic acids).[34] Fulvic acids have a special function with respect to the demise of organic compounds applied to soil as pesticides.[35] It has been established that fulvic acid is vital in helping to form new species of metal ions, binding with organic pollutants such as pesticides and herbicides, and catalyzing the breakdown of toxic pollutants. Radioactive substances react rapidly with fulvic acid, and only a brief time is required for equilibrium to be reached.[36] All radioactive elements are capable of reacting with fulvic acid and thus forming organo-metal complexes of different adsorptive stability and solubility.

Dissolves Silica

Fulvic acids are especially important because of their ability to complex or chelate metal ions and interact with silica.[37] It has been shown that these interactions may increase the concentrations of metal ions and silica found in water solutions to levels that are far in excess of their assumed dissolution ability.[38]

Synthesizes Or Transmutates Minerals[39]

Fulvic acid complexes have the ability to bio-react one with another, and also inter-react with cells to synthesize or transmutate new mineral compounds. The transmutation of vegetal silica and magnesium to form calcium in animal and human bones is a typical example of new synthesis of minerals.[40] (See Fulvic Acid & Vegetal Silica beginning on page-40.)

Enhances Cell Division and Elongation[41]

Fulvic acid stimulates and balances cells, creating optimum growth and replication conditions.

Enhances the Permeability of Cell Membranes[42]

Fulvic acids act as specific cell sensitizing agents and enhance the permeability of the cell membrane.[43]

Increases Metabolism Of Proteins[44]

Fulvic acid intensifies the metabolism of proteins, RNA, and DNA.[45] It has been found that fulvic acid definitely increases DNA contents in cells,[46] and also increases and enhances the rate of RNA syntheses.[47]

Catalyzes Vitamins Within The Cell[48]

Fulvic acid has the ability to complex vitamins into its structure, where they are presented to the cell in combination with complexed minerals. In this perfect natural condition, they are able to be catalyzed and utilized by the cell. In absence of adequate trace minerals, vitamins are unable to perform their proper function.

Chelates All Monovalent and Divalent Elements To Which It Is Exposed

Fulvic acid has the power to form stable water soluble complexes with monovalent, divalent, trivalent, and ployvalent metal ions. It can aid the actual movement of metal ions that are normally difficult to mobilize or transport.[49] Fulvic acids are excellent natural chelators and cation exchangers, and are vitally important in the nutrition of cells.

References:

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

[2] Vital electrolytes – Baker, W.E. (1973). Geochimica et Cosmochimica Acta, 37, 269-281.

[3] Gamble, D.S., & Schnitzer, M. (1974). Trace Metals and Metal-Organic Interactions in Natural Waters. Ann Arbor, Mi: Ann Arbor Science.

[4] Power of an electorlyte – Crile, G. (1926). A bipolar theory of living processes. New York: McMillan.

[5] Decrease in electrical potential - Crile, G. (1926). A bipolar theory of living processes. New York: McMillan

[6] Powerful electrolyte - Jackson, William R. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning, 329. Evergreen, Colorado: Jackson Research Center.

[7] New Electronic Encyclopedia. (1991). Photosynthesis. Grolier Electronic Publishing.

[8] Donor and acceptor – Jackson, William R. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning. Evergreen, Colorado: Jackson Research Center.

[9] Donor and receptor - Rashid, M.A. (1985). Geochemistry of marine humic substances. New York: Springer-Verlag.

[10] Donor, receptor - Sposito, G., Holtzclaw, K.M., LeVesque, C.S., & Johnston, C.T.(1982). Trace metal chemistry in arid-zone field soils amended with sewage sludge. II. Comparative study of the fulvic acid fraction. Soil Science Society America Journal, 46. 265-270.

[11] Mineral complexes in fulvic may serve as electrodes – Rashid, M.A. (1985). Geochemistry of marine humic substances. New York: Springer-Verlag.

[12] Free radical – Senesi, N. (1990) Analytica Chmica Acta, 232, 51-75. Amsterdam, The Netherlands: Elsevier.

[13] Free radical – Senesi, N., Chen, Y., & Schnitzer, M. (1977b). The role of humic acids in extracellular electron transport and chemical determination of pH in natural waters. Soil Biology and Biochemistry, 9,397-403.

[14] Oxidation reduction – Senesi, N., Chen, Y., & Schnitzer, M. (1977b). The role of humic humic acids in extracellular electron transport and chemical determination of pH in natural wates. Soil Biology and Biochemistry, 9, 397-403.

[15] Dissolves metals and minerals – Ong, H.L., Swanson, V.D., & Bisque, R.E. (1970) Natural organic acids as agents of chemical weathering (130-170). U.S. Geological Survey Professional Paper 700 c. Washngton, DC: U.S. Geological Survey.

[16] Enhance and transport nutrients – Christman, R.F., & Gjessing, E.T. (1983). Aquatic and terrestrial humic materials. The Butterworth Grove, Kent, England: Ann Arbor Science.
Also: Prakash, A. (1971). Terrigenous organic matter and coastal phytoplankton fertility. In J.D. Costlow (Ed), Fertility of the sea, 2, 351-368. (Proceedings of an International Symposium on Fertilty of the Sea, Sao Paulo, Brazil, London, and New York: Gordon and Breach Science)

[17] Enhance and transport nutrients – Prakish, A. (1971). Fertility of the Sea, 2, 351-368.

[18] Williams, S. T. (1963). Are antibiotics produced in soil? Pedobiologia, 23, 427-435.

[19] Stimulate growth - Konovona, M.M. (1966). Soil organic matter. Elmsford, NY: Pergamon.

[20] All known vitamins in soil – Konovova, M. M. (1966). Soil organic matter. Elmsford, NY: Pergamon.

[21] Many times its weight- Deb, B. C. (1949). The movement and precipitation of iron oxides in podzol soils. Journal of Soil Science, 1, 112-122.

[22] Catalyzes enzyme reactions – Khristeva, L. A., Luk'Yanonko, M.V. (1962). Role of physiologically active substances in soil-humic acids, bitumens and vitamins B, C, P-P A and D in the life of plants and their replenishment. oviet Soil Science, 10, 1137-1141.

[23] Fulvic and enzymes – Pardue, H.L, Townshend, A., Clere, J.T., VanderLinden (Eds.), (1990, May 1). Analytica chimica Acta, Special Issue, Humic and Fulvic compounds, 232 (1), 1-235. (Amsterdam, Netherlands: Elsevier Science Publishers)

[24] Increase assimilation - Buffle

[25] Low molecular weight, Aiken, G.R., McKnight, D.M., & VacCarthy, P.1985). Humic substances of soil, sediment and water, New York: Wiley-Interscience.

[26] Sensitize cell membranes- Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Spriner-Verlag.

[27] Stimulte metabolism-Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Springer-Verlag.

[28] Genetic and growth - Jackson, William R. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning, 538. Evergreen, Colorado: Jackson Research Center.

[29] Oxygen is absorbed – Kononova, M.M. (1966). Soil organic matter. Elmsford, NY: Pergamon.

[30] Rapid transport to shoots - Kononova, M.M. (1966). Soil organic matter. Elmsford, NY: Pergamon

[31] Immune system – Syltic, P.W. (1985). Effects of very small amounts of highly active biological substances on plant growth. Biological Agriculture and Horticulture, 2, 245-269; and, Research reports and studies, Appropriate Technology Ltd. Dallas, TX: Murray Sinks II of ATL (Publisher).

[32] Modify damage by toxic compounds – Christman, R.F., & Gjessing, E.T. (1983). Aquatic and terrestrial humic materials. The Butterworth Grove, Kent, England: Ann Arbor Science. Also: Prakash, A. (1971). Terrigenous organic matter and coastal phytoplankton fertility. In J.D. Costlow (Ed.), Fertility of the sea, 2, 351-368. (Proceedings of an International Symposium on Fertility of the Sea, Sao Paulo, Brazil, London, and New York: Gordon and Breach Science.)

[33] Enviromental chemicals-

[34] Paraquat - Fisher, A.M., Winterle, J.S., & Mill, T. (1967). Primary photochemical processes in photolysis mediated by humic substances. In R.G. Zika & W. J. Cooper (Eds). Photochemistry of environmental aquatic system (141-156). (ACS Sympoium Series 327). Washington DC: American Chemical Society.

[35] Pesticides - Aiken, G.R., McKnight, D.M., & MacCarthy, P. (1985). Humic substances os oil, sediment and water. New York: Wiley-Interscience.

[36] Radioactive properties - Szalay, A. (1958). The signifiicance of humus in the geochemical enrichment of uranium. Proceedings of the 2nd International Conference on the Peaceful Uses of Atomic Energy, 2, 12-186 (London: Pergamon)

[37] Dissolves and weathers silica- Huang, W.H., & Deller, W.D. (1970). Dissolution of rock-forming silicate minerals in organic acids; simulated first-stage weathering of fresh mineral surfaces. American Mineralogical Journal, 55, 2076-2094.

[38] Dissolves silica- Kodama, H., Schnitzer, M., & Jaakkimainen, M. (1983). Chlorite and biotite weathering by fulvic acid solutions in closed and open systems. Canadian Journal of Soil Science, 63, 619-629.

[39] Transmutate or synthesis of new minerals - Shnitzer, M., Dodama. H. (1977). Reactions of minerals with soil humic substances. In J.B. Dixon & S.B. Weed (Eds.), Minerals in soil environments (Chap.21)). Madison, WI: Soil Science Society of America.

[40] See “The Fulvic Acid, Vegetal Silica Miracle” later in this report, and further documentation of Kervran, Louis C, Biological Transmutations.

[41] Cell elongation - Poapst, P.A., & Schnitzer, M. (1971). Fulvic acid and adventitious root formation. Soil Biology and Biochemistry, 3, 215-219.

[42] Enhance permeability of cell membranes – Christman, R.F., & Gjessing, E.T. (1983). Aquatic and terrestrial humic materials. The Butterworth Grove, Kent, England: Ann Arbor Science. Also: Prakash, A. (1971). Terrigenous organic matter and coastal phytoplankton fertility. In J.D. Costlow (Ed.), Fertility of the sea, 2, 351-368. (Proceedings of an International Symposium on Fertility of the Sea, Sao Paulo, Brazil, London, and New York: Gordon and Breach Science) low molecular weight, Aiken, G.R., McKnight, D.M., & VacCarthy, P. 1985). Humic substances of soil, sediment and water, New York: Wiley – Interscience.

[43] Sensitizing agent – Prakash, A. (1971). Terrigenous organic matter and coastal phytoplankton fertility. In J.D. Costlow (Ed.), Fertility of the sea, 2, 351-368. (Proceedings of an International Symposium on Fertility of the Sea, Sao Paulo, Brazil, London, andNew York: Gordon and Breach Science)

[44] Increase metabolism of proteins – Christman, R.F., & Gjessing, E.T. (1983). Aquatic and terrestrial humic materials. The Butterworth Grove, Kent, England: Ann Arbor Science. Also: Prakash, A. (1971). Terrigenous organic matter and coastal phytoplankton fertility. In J.D. Costlow (Ed.), Fertility of the sea, 2, 351-368. (Proceedings of an International Symposium on Fertility of the Sea, Sao Paulo, Brazil, London, and New York: Gordon and Breach Science)

[45] proteins, DNA, RNA – Khristeva, L.A., Soloche, K.I., Dynkina, R.L., Kovalenko, V.E., & Gorobaya, A.I. (1967). Influence of physiologically active substances of soil humus and fertilizers on nucleic acid metabolism, plant growth and subsequent quality of the seeds. Humus et Planta, 4, 272-276.

[46] Proteins, DNA, RNA – Jackson, William R. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning, 569-570. Evergreen, Colorado: Jackson Research Center.

[47] Synthesis of RNA and DNA – Khristeva, L.A. (1968). About the nature of physiologically active substances of the soil humus and of organic fertilizers and their agricultural importance. In F.V. Hernando (Ed,), Pontifica academec scientarium citta del vaticano (701-721). New York: John Wiley.

[48] Catalyst to vitamins within the cell – Williams, Dr. Roger J. (1977). The Wonderful World Within You. Bio-Communications Press. Wichita, Kansas.

[49] Transport metal ions – Schnitzer, M., & Khan, S.U. (1972). Humic substances in the environment New York: Decker.

[50] Acidity of fulvic acid – Schnitzer, M. (1977). Recent findings of the characterization of humic substances extracted fromsoils from widely differing climatic zones. Proceedings of the Symposium on Soil Organic Matter Studies, Braunsweig (117-131).

[51] Environment with adeequate oxygen – Schnitzer, M. (1977). Recent findings of the characterization of humic substances extracted from soils from widely differing climatic zones. Proceedings of the Symposium on Soil Organic Matter Studies, Braunsweig (117-131).

[52] Low molecular weight – Aiken, G. R., McKnight, D.M., & MacCarthy, P. 1985). Humic substances of soil, sediment and water, New York: Wiley-Interscience.

[53] Absorption by cells – Azo, S. & Sakai, I (1963). Studies on the physiological effects of humic acid. Part 1. Uptake of humic acid by crop plants and its physiological effects. Soil Science and Plant Nutrition, 9(3), 1-91. (Tokyo)

[54] translocation of trace elements to leaf tissues – Aiken, G.R., McKnight, D.M., & VacCarthy,P. 1985). Humic substances of soil, sediment and water, New York: Wiley-Interscience.

[55] Important for the health of plants – Christman, R.F., & Gjessing, E.T. (1983). Aquatic and terrestrial humic materials. The Butterworth Grove, Kent, England: Ann Arbor Science. Also: Prakash, A. (1971). Terrigenous organic matter and coastal phytoplankton fertility. In J.D. Costlow (Ed.), Fertility of the sea, 2, 351-368. (Proceedings of an International Symposium on Fertility of the Sca, Sao Paulo, Brazil, London, and New York: Gordon and Breach Science)

[56] depleted minerals in soil – Senate Document #264.

[57] Impossible to define- Vaughan, D., & Malcolm, R.E. (1985b). Soil organic matter and biological activity. Plant and soil Science, 16, 1-443. (Dordrecht, Netherlands: Martinus Nijhoff/Dr.W.Junk)

[58] unable to be synthesized – not clearly defined. Murray, K., & Linder, P.W. (1983). Fulvic acids: Structure and metal binding. I. A random molecular model. Journal of Soil Science, 34, 511-523.

[59] Unable to define – Senesi, N., Chen, Y., & Schnitzer, M. (1977b). the role of humic acids in extracellular electron transport and chemical determination of pH in natural waters. Soil Biology and Biochemistry, 9, 397-403.

[60] Effect on total Earth environment – Buffle, J. (1988). Complexation reactions in aquatic systems: An analytical approach. Chichester: Horwood.

[61] Transmutate or synthesis of new minerals – Shnitzer, M., & Dodama, H. (1977). Reactions of minerals with soil humic substances. In J.B. Dixon & S.B. Weed (Eds.), Minerals in soil environments (Chap. 21)). Madison, WI: Soil Science Society of America.

[62] See further studies on colloids in later sections of this report.

[63] complex more metal – Rashid, M.A. (1971). Role of humic acids of marine origin and their different molecular weight fractions in complexing Di-and Triavalent metals. Soil Science, 111, 298-306.

[64] Dissolves more metal – Hoffman, M.R., Yost, E.C., Eisenreich, S.J., & Mairer, W.J. (1981). Characterization of soluble and colloidal phase metal complexes in river water ultrafiltration. A mass balance approach. Environmental Science Technology, 15, 655.

[65] Mineral levels in excess of their assumed dissolution ability – Kodama, H., Schnitzer, M., & Jaakkimainen, M. (1983). Chlorite and biotite weathering by fulvic acid solutions in closed and open systems. Canadian Journal of Soil Science, 63, 619-629.

[66] Penetration of fulvic into plant cells – Prat, S., Smidova, M., & Cincerova, A.L. (1961). Penetration and effect of humus substances (fractions) on plant cells. International Congress of Biochemistry, 5th (Abstract Commun. 329). (Moscow)

[67] “free radical” - Senesi, N. (1990) Analytica Chimica Acta, 232, 51-75. Amsterdam, The Netherlands: Elsevier.

[68] Vital electrolytes – Backer, W.E. (1973) Geochimica et Cosmochimica Acta, 37, 269-281.

[69] Enhance and transport nutrients – Prakash, A. (1971). Fertility of the Sea, 2, 351-368.

[70] Make water wetter – Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Springer-Verlag.

[71] Catalyze enzyme reactions – Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Springer-Verlag.

[72] Increase assimilation – Buffle, J. (1988). Complexation Reactions in Aquatic Systems: An Analytical Approach. Chichester: Horwood.

[73] Stimulate metabolism – Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Springer-Verlag.

[74] Chelate…major and trace elements – Rashid, M.A. (1971). Soil Science, 111, 298-306.

[75] Capacity for electrochemical balance – Senesi, N. (1990) Analytica Chimica Acta, 232, 51-75. Amsterdam, The Netherlands: Elsevier.

[76] Essential to the process – Christman, R.F., & Gjessing, E.T. (1983). Aquatic and Terrestrial Humic Materials. The Butterworth Grove, Kent, England: Ann Arbor Science.

[77] Essential to healthy plants – California Fertilizer Association. (1985). Western Fertilizer Handbook. Danville, II: Interstate.

[78] Same amount of time – Greenland, D.J., (1965). Soils and Fertilizers.35(5), 415-532.

[79] Auxin type reactions – Wilkins, M.D. (Ed.). (1984). Advanced Plant Physiology. Marshfield, MA: Pitman.

[80] Plant circulatory systems – Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Springer – Verlag.

[81] Transpiration systems – Kononova, M.M. (1966). Soil Organic Matter. Elmsford, NY: Pergamon.

[82] Deterioration – Rashid, M.A. (1985). Geochemistry of Marine Humic Substances. New York: Springer-Verlag.

[83] Fibrous root growth – Kononova, M.M. (1966). Soil Organic Matter. Elmsford, NY: Pergamon.

[84] Insect infestation – 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.

[85] The Fulvic Miracle list – Jackson, William R. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning. Evergreen, Colorado: Jackson Research Center.

[86] Increase enzyme activity – 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 Biochmistry, 4, 475-478.

[87] Prevents wilting – Rashid, M.A. (1985). Geochemistry of marine humic substances. New York: Springer-Verlag.

[88] Chemical weathering, Simonson, R.W. (1959). Outline of a generalized theory of soil genesis. Science Society America Proceedings, 23, 152-156.

[89] Dissolves silica, 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 Pochvovedenic. (1969), 3, 26-36)

[90] Who and What Are You? – Williams, Dr.Roger J. (1977). The Wonderful World Withing You.Bio-Communications Press. Wichita, Kansas.

[91] And duplicates itself – Williams, Dr.Roger J. (1977). The Wonderful World Within You.Bio-Communications Press. Wichita, Kansas.

[92] other nutritional factors – ibid.

[93] extremely different types – ibid.

[94] can produce only one – ibid.

[95] disease we experience – ibid.

[96] amino acids that attract insects – 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.

[97] Catalyst to vitamins within the cell – Williams, Dr. Roger J. (1977). The Wonderful World Within You. Bio-Communications Press. Wichita, Kansas.

[98] Mader, S.S. (1990). Biology (3rd edition). Dubuque, Ia: William C. Brown.

[99] for complete metabolism – Williams, Dr. Roger J. (1977). The Wonderful World Within You. Bio-Communications Press. Wichita, Kansas.

[100] maximum stimulation of enzyme development – Jackson, William R. PhD. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning. Evergreen, Colorado.

[101] enzyme reactions and formation – Jackson, William R. PhD. (1993). Humic, Fulvic and Microbial Balance: Organic Soil Conditioning.Evergreen, Colorado.

[102] free radicals, 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.

[103] Schlickewei, Dr. W., (1993). Arch Orthop Trauma Surg 112:275-279, Influence of humate on calcium hydroxyapatite implants.

[104] W. Schlickewei, Dept. of Surgery (Traumatology), University Hospital, Freiburg, Germany

[105] U.N. Riede, Dept. of Pathology, University Hospital, Freiburg, Germany. J. Yu, Dept. of Pathology, University Hospital, Freiburg, Germany. W. Ziechmann, Ground chemistry Research Group, University of Gorringen, Germany. E.H. Kuner, Dept. of Surgery (Traumatology), University Hospital, Freiburg, Germany. B. Seubert, Weyl Chemicals, Mannheim, Germany

[106] dry beans - Bertrand, G. & G. Levy. The Content of Plants, Notably Food Plants, in Aluminum Compt. Rend. Acad. Sci. (Paris), 192 (1931), No. 9 pp. 525-529; Compt. Rend. Acad. Agr. France, 17 (1931), pp 235-238, (E.S.R.) 66, p.193.

[107] definition of a colloid – Dorland's Illustrated Dictionary, 24th Edition.

[108] definition of colloids – Random House Dictionary of the English Language, Current Edition

[109] colloids and their size – Max Motyka, M.S., Albion Laboratories.

[110] colloids – Lee, Royal, D.D.S. The Mineral Elements in Nutrition. The writings of Dr. Royal Lee.(Accredited as being one of the most respected men in the area of nutritional knowledge to have ever lived.)

[111] Murray, K., & Linder, P.W. (1983). Fulvic acids: Structure and metal binding. I. A random molecular model. Journal of soil Science, 34, 511- 523

[112] Rashid, M.A. (1971). Soil Sciences, 111, 298-306. Hoffman, M.R., Yost, E.C., Eiscncich,S.J., & Maier, W.J. (1981) Environmental Science Tecnology, 15, 655.

[113] Ponomarcva, V.V., & Ragim-Zadc, A.I. (1969). Comparative study of fulvic and humic acids as agents of silicate mineral decomposition.Society Soil Science, 1, 157-165. (Trans. From Pochvovedie. (1969), 3, 26-36)

[114] Rashid, M.A. (1985) Geochemistry of Marine Humic Substances. New York: Springer-Verlag.; Vaughn, D., Malcolm, R.E., & Ord, B.G. (1985) Soil Organic Matter and Biological Activity. (p. 77-108) Dordrecht, Netherlands: Martinus Nijhoff; Vaughn, D., Ord, B., & Malcolm, R.E. (198) Journal of Experimental Botany, 29,1337-1344.

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

[116] Szalay, A. (1958). The significance of humus in the geochemical enrichment of uranium. Preceedings of the 2nd International conference on the Peaceful Uses of Atomic energy, 2, 182-186. (London: Pergamon)

[117] Pauli, F.W. (1975). Heavy metal humates and their behavior against hydrogen sulfide. Soil Science, 119, 98-105.

[118] Pillai, K.C., & Mathew, E. (1976). Plutonium in the aquatic environment: Its behavior, distribution and significance. In Transuranium nuclides in the environment (pp. 25-45). Proceeding of the Sumposium, International Atomic Energy Agency, Vienna.

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

[120] W.R. Jackson PhD. (1993) Humic, Fulvic, and Microbal Balance: Organic Soil Conditioning (pp. 762-763).

 

 

Skriv din egen omtale

Kun registrerte brukere som har logget inn kan skrive omtaler. Vennligst log inn eller register deg!

Produkttagger

Bruk mellomrom for å skille tagger. Omgi setninger med apostrof (').

Tilleggsinfo

ProdusentNei
MomsklasseMomspliktige varer 15%

Dette er en erstatning for salgsproduktene