Brent
July 7th, 2007, 02:39 PM
Promotes Electrochemical Balance as Donor or Receptor [8,9,10,11]
Most Powerful Natural Free Radical Scavenger & Antioxidant Known [12]
Complexes Dissolve Minerals & Trace Elements [15]
Enhances Nutrients [16]
Transports Nutrients [17]
Catalyzes Enzyme Reactions [22]
Increases Assimilation [24]
Stimulates Metabolism [27]
Detoxified Pollutants [32]
Dissolves Silica [37,38]
Synthesis [39]
Enhances Cell Division and Elongation [41]
Enhances the Permeability of Cell Membranes [42]
Increases Metabolism of Proteins [44]
Catalyzes Vitamins within the Cell [48]
Chelates All Monovalent & Divalent Elements to Which It Is Exposed [49]
1. Senesi, N. (1990). Analytica Chimica Acts, 232, 51-75. Amsterdam, The Netherlands: Elsevier.
2. Vital electrolytes-Baker, W.E. (1973). Geochimilen at Casmochtulon Acts, 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 electrolyte Crile, G. (1926). A bipolar theory of living processes. New York: McMillen.
5. Decrease in electrical potential Crile, G. (1926). A bipolar theory of living processes. New York: McMillen.
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., Holtaclaw, K.M., LeVesque, C.S., & Johnston, C.T. (1982). Trace metal chemistry in arid-zone filed soils amended with sewage sludge. II. Comparative study of the fulvic and fraction. Soil Science Society America Journal, 45, 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) Analytion Chimica Acts, 232, 51-75. Amsterdam, The Netherlands: Elaevier.
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 acids in extracellular electron transport and chemical determination of pH in natural waters. 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. Washington, 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: Prakish, 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, Seo Paulo, Brazil, London, and New York: Gordon and Breach Science).
17. Enhance and transport nutrients Prakash, A. (1971). Fertility of the Sea, 2, 351-368.
18. Williams, S.T. (1963). Are antibiotics produced in soil? Pedobiologia, 23, 426, 435.
19. Stimulate growth Kanonova, M.M. (1966). Soil organic matter. Elmsford, NY: Pergamon.
20. All known vitamins in soil Kanonova, 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 Sciences, 1, 112-122.
22. Catalyzes enzyme reactions Khristeva, L.A., LukYaneko, M.V. (1962). Role of physiologically active substances in soil-humic acids, bitumens and vitamins B, C, P-PA and D in the life of plants and their replenishment. Soviet Soil Sciences, 10, 1137-1141.
23. Fulvic and enzymes Pardoe, H.L., Townshend, A., Clerc, J.T., VenderLinden (Eds.), 1990, May 1). Analytica Chimica Acts, Special Issue, Humic and Fulvic Compounds, 232 (1), 1-235. (Amsterdam, Netherlands: Elsevier Science Publishers).
24. Increase assimilation Buffle, J. (1988). Complexation Reactions in Aquatic Systems: An Analytical Approach. Chickester: Horwood.
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: Springer-Verlag.
27. Stimulate 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-Kanonova, M.M. (1966). Soil organic matter. Elmsford, NY: Pergamon.
31. Immune system-Syltie, P.W. (1985). Effects of very small amounts of highly active biological substances on plant growth. Biological Agriculture and Horticultures, 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. (1961). 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, Seo Paulo, Brazil, London, and New York: Gordon and Breach Science).
33. Environmental chemicals.
34. Paraquat Fischer, A.M., Winterie, J.S., & Mill, T. (1967). Primary photochemical processes in photolysis medicated by humic substances. In R.G. Zika & W.J. Cooper (Eds). Photochemistry of environmental aquatic system (141-156). (ACS Symposium Series 327). Washington DC: American Chemical Society.
35. Pesticides Aiken, G.R, McKnight, D.M., & MacCarthy, P. (1985). Humic substances of soil, sediment and water. New York: Wiley-Interscience.
36. Radioactive properties Szalay, A. (1958). The significance of humus in the geochemical enrichment of uranium. Proceedings of the 2nd International Conference on the Peaceful Uses of Atomic Energy, 2, 182-186. (London: Pergamon).
37. Dissolves and weathers silica-Huang, W.H., & Delier, W.D. (1970). Dissolution of rock-forming silicate minerals in organic acids; simulated first stage weathering of fresh minerals surfaces. America Mineralogical Journal, 55, 2076-2097.
38. Dissolves silica-Kodmans, 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 Schnitzer, 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, Lois 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, and new 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 Seam, Sao Paulo, Brazil, London, and New York: Gordon and Breach Science).
45. Proteins, DNA, RNA Khristeva, L.A., Solocha, K.L., Dynkins, R.L., Kovalenko, V.E., & Gorovaya, 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 at Plants, 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: Dekker.
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