The document discusses the technical and medical aspects of fulvic acid. It describes fulvic acid as being essential for life and one of nature's most powerful antioxidants. Fulvic acid molecules can transport over 60 times their weight in minerals and nutrients into cells, making nutrients bioavailable. Independent laboratories have analyzed the fulvic acid content and mineral composition of a product called Tracite, which contains naturally extracted fulvic acids from ancient plant matter.
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ATP Medical Literature - Series #23. Medical /
Technical Aspect of FULVIC ACID.
ATP Medical Literature - Series #23. Source:
www.minerallogic.com
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Website : www.MineralLogic.com
Proprietary Process:
MineralLogichas developed a process for leaching
fulvic colloids from fulvic shale using only water as a
leaching agent.Many companies use extraction acids or
other extraction agents to leach fulvic acids from
various shale's such as lignite. Understand that humic
shale contains no free form fulvic acids. They are
separated from the humic acid by leaching,and
activating them with water.
Using extractents other than water will damage certain
fulvic bonds.Products containing a much higher
carboxyl-group reading than hydroxyl-group, or vise
versa, should be suspect of being manufactured with
extractents other than water.
We produce fulvic acid contents of over 7 grams per
liter, or 0.7%.That's 3½ higher than either independent
laboratory has ever measured! Yet, some companies
are claiming fulvic acid contents of over 30%! Fulvic
acids are to minute in quantity,whether in soils, waters,
2. or humic shale, to produce a naturally extracted product
containing over 1% fulvic acids.
2) Independent laboratory analyses:
Analyses spanning several years. We have others on file
for your inspection. Contact us and we will make them
available.
3) Serving Chart:
We developed this chart by taking an average value
for each analyte from a number of different analyses,
spanning several years. The average values for the
powder are calculated by dividing the analyses values
by 5,000 since a 200 mg serving is 1/5,000th of a
kilogram.
4. The average values for the liquid are calculated by
dividing the original lab assay by 2,000.A standard
serving of Tracite is ½ ml, or 14 drops from a standard
medical dropper, or 1/2000th of a liter.
4) Fulvic Acid Analyses:
Two recent laboratory assays showing the fulvic acid
content. One of these analyses reveals Tracite has an
excellent balance of carboxyl (COOH), and hydroxyl
(HO), groups.
5) Conversion Chart:
Shows conversions from grams to pounds etc;
Supplied by MineralLogic
C6) Contaminant Analyses:
Analyses revealing the purity of Tracite. Contains no
3. molds, yeast, bacteria, chemical residues, or
insecticides.
8)Effervescent analysis:
MineralLogicproduces an effervescent product
available in lemon/lime, or orange flavor. This analysis
contains other ingredients besides Tracite.>
9) Nomenclatureumhos/cm2
= Micro-mhos/cm2, how many ohms of resistance to
current flow,or how well a liquid conducts electricity.
meg/100 gm
10. = milli-equivalents
11. = a molar (atomic) measurement for particles.
12) Technical Questions:
For technical questions, product information, product
samples, or additional laboratory analyses please
contact Ralf Ostertag @ (269)552-9436
13)Independent Laboratories used byMineralLogic:
Western Analysis Inc., 40 West Louise Ave. Salt Lake
City Utah 84115, (801) 792-9238 * Fax (801)-
484-9211
EarthFax Development Corporation,177 N. Research
Parkway, Suite #104, North. Logan Utah 84342,
(434)-787-2743 * Fax (343) 787-2749
Harmony Concepts,2147 Rulon White Blvd, Suite
#201, Ogden, Utah 84404, (801) 737-4831* Fax (801)-
(801)737-5191
4. Utility Testing Laboratory,875 Chestnut Street, Salt
Lake City, Utah 84125, (801) 973-8305 * Fax (801)-
973-8333
KAR Laboratories,Kalamazoo, Michigan 49001, (269)
381-9666
Amount Contained in 200 mg Amount Contained in One
ANALYTE of Tracite Powder.(One Serving of Tracite Liquid (1/
Capsule) = A daily serving. milliliter) @ 350,000 mg/l TD
Aluminum 4.76 mg 7.9 mg
Antimony 8.8 mcg 4.3 mcg
Arsenic 1.18 mcg 3.1 mcg
Barium .32 mcg 0.021 mcg
Beryllium 4.34 mcg 7.5 mcg
Bismuth 56 mcg 140 mcg
Boron 68 mcg 29.5 mcg
Bromine 1.0. mcg 2.5 mcg
Cadmium < .002 mcg < 0.105 mcg
Calcium .54 mg 1.35 mg
Carbon 120 mcg 155 mcg
Cerium 4.8 mcg 12.0 mcg
Cesium 1.3 mcg 3.25 mcg
Chloride 16.14 mcg 1.85 mcg
Chromium 77 mcg 200 mcg
Cobalt 15 mcg 37.5 mcg
5. Copper 2.5 mcg 6.3 mcg
Dysprosium 10.2 mcg 25.5 mcg
Erbium 8 mcg 2.0 mcg
Europium .004 mcg 0.0025 mcg
Fluoride 1.6 mcg 4.1 mcg
Gadolinium 21.7 mcg 54 mcg
Gallium 4.3 mcg 10.7 mcg
Germanium 15.38 mcg 7.5 mcg
Gold .002 mcg 0.0025 mcg
Hafnium 0.8 mcg 2 mcg
Holmium 2.2 mcg 5.4 mcg
Indium 5.4 mcg 13.5 mcg
Iodine .158 mcg 0.75 mcg
Iridium .0032 mcg 0.0055 mcg
Iron 23.9 mg 26.7 mg
Lanthanum 25.6 mcg 64 mcg
Lead 0.01 mcg 0.01mcg
Lithium 1.8 mcg 4.6 mcg
Lutetium 1.2 mcg 3.0 mcg
Magnesium 1.88 mg 4.7 mg
Manganese 104 mcg 260 mcg
Mercury < .01 mcg < 0.01 mcg
Molybdenum .003 mcg 0.004 mcg
Neodymium 56 mcg 140 mcg
6. Nickel 21.4 mcg 150 mcg
Niobium .001 mcg .001 mcg
Osmium 0.4 mcg 1.01 mcg
Palladium .002 mcg 0.005 mcg
Phosphorus 116 mcg 152.5 mcg
Platinum <.006 mcg < 0.0075 mcg
Potassium 1.2 mcg 3.0 mcg
Praseodymiu
13.2 mcg 32.9 mcg
m
Rhenium 2.1 mcg 6 mcg
Rhodium <.001 mcg < 0.0025 mcg
Rubidium 126 mcg 315 mcg
Ruthenium 1.6 mcg 4.1 mcg
Samarium 15.6 mcg 39.1 mcg
Scandium 4.8 mcg 12.0 mcg
Selenium 159 mcg 390 mcg
Silicon 62 mcg 155 mcg
Silver 1.0 mcg 1.35 mcg
Sodium 2.38 mcg 0.95 mcg
Strontium 12.38 mcg 3.0 mcg
Sulfur 5.36 mg 37.5 mg
Tantalum .001 mcg .001 mcg
Tellurium .42 mcg 1.1 mcg
Terbium .1.8 mcg 4.6 mcg
7. Thallium 3.38 mcg 11.5 mcg
Thorium 19.5 mcg 25.5 mcg
Thulium 10.9 mcg 27.5 mcg
Tin . 3.5 mcg 8.8 mcg
Titanium 0.6 mcg 0.1.5 mcg
Tungsten .001 mcg .001 mcg
Vanadium 156 mcg 3.8 mcg
Ytterbium 5.4 mcg 13.4 mcg
Yttrium 52 mcg 131 mcg
Zinc .37 mg 0.34 mg
Zirconium .9 mcg 3.05 mcg
Tracite tests for 77 trace minerals and elements:
13) Addditional elements not listed are Hydrogen, Oxygen
and Nitrogen
The low pH in Tracite is NOT caused by citric acid
or other extraction acids. The low pH is the result of
fulvic acids that the colloids are chelated with in nature.
15. This bond is one of the reasons that make
hydrophilic colloidal minerals so effective.All minerals
taken up by plants are in the fulvic acid form.The
by Dr. William R. Jackson, Organic Soil Conditioning,
contains in depth information concerning fulvic
fractions, humic acids and microbial balance.
Because of the high concentration of minerals and
trace elements in Tracite it is only necessary to
8. consume a few drops a day in juice or water.
The first column contains amounts that are taken
from our most potent raw material. We have reached
total dissolved solids (TDS) as high as 35% or 350.000
mg/l.
This is due to the extremely small particle size of
our raw shale.We extract Tracite using only clean fresh
water. No extraction acids are used.Tracite contains
both colloidal and ionic particles.
Tracite is closer in mineral composition to human
body fluids than any other naturally occurring trace
mineral. Tracite is iron based, not sulfur based as many
other colloidal mineral products.
Human body fluids are primarily iron and
calcium not sulfur or chloride.
Charts supplied by MineralLogicproducers of Tracite
Fulvic Mineral products.
Conversion Tables for Weight and Volume@
Weight Grams Ounces LB
1 Gram 1 .0352 .0022
1 oz. 28.4 1 .0625
1 LB 453.6 16 1
1 KG 1000 35.2 2.208
11. · Fulvic acid is one of the most powerful natural
electrolytes known to exist. It charges, regenerates,
regulates and delivers it’s energies to living cells.
balances cellular life by restoring the electrical
potential that was once normal to the cell. This fact in
and of itself is amazing!
· Fulvic Acids are created in extremely small
amounts by millions of microbes working on
decaying plant matter. The most potent and active
fulvic acids are found in trace amounts in certain
humic deposits from prehistoric plant life. Fulvic
acid products that do not contain rich amounts of
trace elements should be suspect of containing "peat”
or "manure” fulvic acids produced by a kind of
composting. Such products are acceptable for
agricultural purposes,but the potential for bacterial e-
coli carry-over is a risk as evidenced recently by an
incident in Canada. These ‘agricultural‘ fulvic acids are
not only devoid of virtually all minerals or trace
elements but are also only first generation.
· Fulvic acids from 40 milion years of plant matter
breakdown and recycling creates fulvic acid molecules
12. far superior to any "man made” versions like ‘first
generation fulvic acids’ from peat or manure
composting. Beware of fulvic acid products from China
and Hungary. India’s fulvic acid products should also be
suspect of undesirable production methods for
nutritional and possibly food-growing purposes.
· Fulvic acids are in a natural form to interact with and
be absorbed by, living cells. Maintaining the
environment by dissolving mineral complexes and
elements, fulvic acid causes cells to bio-react
electrically with one another.This produces
catalytic reactions, electron transfer and
transmutations into new minerals.
By adding fulvic acid to our soil we create an
environment producing healthier plants with greater
crop yields. The overuse of pesticides, chemical
fertilizers and erosion prohibit microbial activity and
the formation of fulvic acids within a medium. Our
farmlands are in "poor health”from these agricultural
practices.
· Fulvic Acids are necessary for the utilization of
vitamins, enzyme production and hormonal systems.
13. is essential to living cells carrying out metabolic
processes. It balances and energizes cell life, and the
biological properties it comes into contact with.
· Cells on the inside or outside of a biological system
can absorb molecules bound to fulvic acid.
· Whether these natural compounds are ions (single
molecule), or colloids (groupings of molecules)
has little bearing on absorption. The contention whether
"colloidal” or "ionic” minerals are the superior is
virtually a moot point, as long as the minerals or
elements are chelated by fulvic acids. "Plant
derived” trace minerals from naturally-created fulvic
deposits will contain both colloidal and ionic molecules.
· The total metabolism of the body is the sum of
the metabolic operations carried on in each individual.
· Cells, when properly nourished, are capable of
producing many of their own resources necessary for
metabolic processes.
· Each cell burns its own energy, maintains itself,
manufactures its own enzymes, creates its own
proteins and duplicates itself. Fulvic Acids are the key
ingredient for making this possible.
15. green forests and plains with soils containing an
abundance of minerals and trace elements. Today's
richest soils contain more than 77 trace minerals and trace
elements. These soil areas are very rare and have been
found only where rich fulvic shale deposits exist. Shale
deposits are formed by the life and decay cycle of
plants.
Studies conducted at various agricultural colleges
show that today's fruits and vegetables are lacking
many of these vital elements. Most samples tested
contain less than 30 minerals or trace elements.
As the cycle of life and death continued over millions of
years, these mineral rich plants formed huge deposits of
fulvic shale later buried under mud, rock flows, silt, and
sand. The tremendous weight of these flows produced such
enormous pressures that it compressed most of the
moisture out of the pure, preserved, prehistoric plant
deposits.
This process left deposits in areas where prehistoric
vegetation was abundant. The United States contains
several such deposits in various Southeastern and
Northwestern states. Although the existence of these
deposits has been known for some time, the tremendous
nutritional benefit that can be derived by ingesting fulvic
minerals has only recently become apparent to the
16. health conscious public.
One of the most complex, biochemical phenomena in nature
converts solar energy into tangible chemical energy.
The process known as photosynthesis means
"synthesized by light." This is a biological procedure
wherein the energy of sunlight is absorbed and used
to power the formation of organic materials like
carbon dioxide, nitrogen, oxygen, water, and minerals.
Photosynthesis is also the process wherein metallic
minerals are converted into organic biologically active
molecules.
Only after a mineral has gone through the plants root or
folial membranes, is chelated with protein and water, is it
then in the proper form for ingestion. Micro-organisms in the
soil also play a significant role in preparing inorganic
minerals for absorption by plants.
This is accomplished through the micro-organism's or
plant's membranes converting high molecular weight
humus minerals into low molecular weight molecules. This
allows the plant to assimilate minerals and other humic
substances much more efficiently. Fulvic shale (a type of
humic shale rich in water extractable fulvic acids) is
earth's greatest storehouse of minerals and trace elements.
Fulvic shale deposits contain more than 77 minerals and
trace elements in the fulvic colloidal/ionic hydrophilic
form. They are ideal for both agriculture and human
18. Fulvic acids can be found in clay, soils, humic shale,
streams, oceans, and lakes.
The greatest concentrations appear in rare fulvic shale
deposits.
These deposits are located near coastal areas with
variations in chemical composition depending on location,
climate, etc.
The yellow-brown color of liquefied humus in lakes, rivers,
and coastal waters is almost entirely due to the presence
of low-molecular weight, fulvic acid chelates.
These consist of various particle sizes, so small they are
difficult to measure accurately.
Substantial amounts of calcium, magnesium, potassium,
etc., are brought into solution by the action of fulvic acid
on mica, clay, and other mineral-rich deposits.
Recent scientific research in biochemistry, botany and
agriculture has changed our understanding of how soil
chemistry works, and why fulvic acids are so important.
For example, it was once thought that the chelation of
metallic minerals into chelated minerals was accomplished
entirely by the plant's interior biological processes.
We know now that fulvic acids (which are strong
chelators of metallic minerals) are partly responsible
for micronizing metallic minerals prior to absorption
by plants and micro-organisms.
19. Fulvic acids have a particularly strong affinity for
reaction with iron.
Soils rich in fulvic acids increase the absorption of iron by
plants.
Shale deposits containing high amounts of colloidal/ionic
hydrophilic iron bound to fulvic acid, contain greater
amounts of other trace minerals.
These interactions help to increase soil concentrations
of metal ions and silica to levels that are far greater than
once theorized.
Studies conducted with fulvic acids suggest that such
interaction may play a role in the synthesis of new minerals
by allowing the complexed, dissolved metals, and silica
to form new combinations. That's exciting news!
Since fulvic acid is also an electrolyte,
1) it increases the permeability of cell membranes,
2) enhances RNA and DNA metabolism,
3) reverses damage done by toxic substances, and
4) prolongs the resident-time of nutrients within the
medium.
Fulvic acid makes trace elements biologically active for use
by humans, animals, plants, and microbes.
It also acts as a transporter molecule for vitamins, enzymes,
and a host of other nutrients.
20. During the earth's prehistoric era, the topsoil was
incredibly rich with humic and fulvic acids.
This caused plants to take up high concentrations of
minerals. Fulvic acids play a significant role in forming
super rich fulvic shale deposits, with their abundance of
minerals and trace elements.
Without the action of fulvic acids “creating
biologically
available elements from metallic substances
as we know it would cease to exist.
Fulvic shale deposits contain extraordinarily high
concentrations of fulvic acid fractions in the colloidal/ionic
form with every mineral and trace element having once
passed through the root of a plant.
The higher the mineral content, the higher the fulvic
acid fractions and vise versa.
The amount ofnaturally occurring fulvic acid contained in a
mineral product is an excellent way to measure how
"naturally plant derived" it is. In the near future most
nutritional supplements will contain fulvic colloids
increase their absorption and effectiveness.
By leaching fulvic shale with low temperature water,
becomes possible to reactivate fulvic acid fractions
disperse the minerals in the resulting liquid.
Fulvic acids are the main
component in maintaining
the negative electrical charge that's so vital to the
21. health of living cells.
Fulvic colloids lend themselves to numerous molecular and
ionic reactions due to their crystalline structure.
Hydrophilic fulvic colloidal/ionic minerals are chelated by
nature.
They have the ability to move directly into the cell
membranes they contact prior to digestion.
Most other mineral supplements are either ground-up
rocks (limestone-calcium carbonate), or
chelated in the laboratory (amino acid chelates,
citrates, gluconates etc.).They have little or no impact
on the cells they contact prior to digestion.
Tracite contains higher concentrations of minerals and
trace elements than other products, and 3.5 times the
natural fulvic acid concentration. MineralLogic uses
clear cool water to leach the colloidal fulvic acid
fractions from our shale. This process produces mineral
and trace element concentrations well over 250,000
mg/l TDS.
Fulvic acids are the only part of humus to be soluble in
alkaline, acid and neutral environments.
This is an important quality, since plants absorb nutrients in
solution. Furthermore, their low molecular weight
22. facilitates penetration into plants.
One (1) fulvic acid molecule can carry more than 60
minerals and trace elements into the cell. Some of
these are single molecules (ions) others are groupings
of molecules (colloids).
The use of fulvic acids in agriculture improves the structure
of soil, retaining moisture, encouraging aeration of the root
by providing the plant with nutrients including nitrogen,
phosphorous, potassium, magnesium, sulfur
micronutrients.
Fulvic acid contribute to the conversion of minerals from
insoluble to solubles form through the release of
carbonic gas.
Likewise, fulvic acids have apositive effect on the growth
and development of crops due to an increased extraction of
macro- and micronutrients and, on a biochemical level, they
increase permeability of cell membranes, thus
increasing the effectiveness and uptake of
nutrients.
It is apparent that humic substances consist of a
heterogeneous mixture of compounds for which
single structural formula will suffice.
Humic acids are thought to be complex aromatic
macromolecules, containing amino acids, amino
sugars, peptides, aliphatic compounds involved in
24. stability via interactions between charged functional
groups (polarized fulvic mineral particles),and
water molecule dipoles.
Colloidal particleshave adiameter size ranging from 0.001
microns to 2.0 microns. Fulvic shale mineralsare naturally
occurring mineral colloids micronized by the action of fulvic
acid and photosynthesis to sizes of 0.005 microns or
less.Some of these particles are so small that it becomes
difficult to measure their size. Low molecular weight
acid molecules arrange themselves easily in
colloidal molecular groups of various sizes.
theorized that these different size molecular groups (found
in all plant life), are targeted for various biological functions
inside and outside the cell. For example; A certain grouping
of chromium colloids may be targeted for a particular
function in pancreatic cells.
As the particle size of any substance decreases
the total surface area available for interaction
with water increases dramatically. Tracite Fulvic
Minerals from MineralLogic contain the highest
concentration of hydrophilic, colloidal/ionic
minerals, trace elements and fulvic acids possible (
7 grams per liter3.5 times greater fulvic acid content
than other products), with over 250,000 mg/l TDS. The
particle size and fulvic acid concentration of the
shale has everything to do with how much of that shale will
26. cells are miniature batteries.
Crile shows that the nucleus of the cell is
comparatively acidic, and that the cytoplasm of the
cell is comparatively alkaline. The nucleus and the
cytoplasm are separated by a semi-permeable
membrane with the nucleus (+) acting as the
positive element.The cytoplasm (-) acts as the
negative element.
This creates a true bipolar mechanism much
like a battery. Crile also developed evidence showing
that the performance, integrity, and structure of living
cells are dependent on maintenance of normal
electrical potential.
When living cells are robbed of their ability to
maintain a balanced and sufficient electrical
potential, tears and rips begin to form in the cell
membranes indicating the beginning of cellular
dissolution. Restoration of proper levels of
electrolytes quickly repairs the cellular damage
and returns cellular function to a normalized state.
The results of Crile's experiments clearly
show that all living cells are dependent on fulvic
colloidal/ionic electrolytes. Fulvic acid electrolytes,
28. solution and a suspension."
• Colloidal minerals from humic shale are among the
smallest crystalline particles known to exist, and
areneither a suspension nor a solution.
• This gives these colloids some special properties
that larger size colloids do not exhibit. Colloids larger
than 0.005 microns have difficulty moving though plant
and animal membranes.
• These colloidsare hydrophobic in nature
meaning they have an inherent resistance to
interaction with water. Examples in nature include:
carbonates, sulfides, phosphates, framework
silicates, aluminum, iron oxides,
phyllosilicates, and some clays.
• Techniques that supply some information about
colloids are:
• Laser light scattering, field-flow fractionation, ultra
filtration and chemical analysis.
• When analyzed in the laboratory for mineral
content fulvic colloidal mineral liquids are
treated as a solution posting the results in
milligrams per liter (mg/l) of dissolved solids
(not suspended solids).
• In short, colloids on the smaller end of the
29. spectrum behave like solutions while colloids on the
larger end of the spectrum behave like a suspension.
• The statement "Colloidal
minerals are not bio-
available" is true when discussing
hydrophobic minerals such as calcium
carbonate (Limestone), zinc oxide, or magnesium
phosphates.
• These minerals are poorly utilized due to the
lack of fulvic acid. They require a chemical
reaction caused by the body's enzymes and
hydrochloric acid before they can be of any value to
the body's cells. Since fulvic minerals extracted from
humic/fulvic shale are chelated by fulvic acids. The
statement "Colloids do not diffuse easily
through plant or animal membranes" is not
accurate. The conclusion that colloids cannot pass
through membranes of vegetable and animal matter
based solely on studies and experiments
done with inorganic colloids. Chemical
colloids are much larger in particle size
naturally occurring mineral colloids, and where not
chelated in nature by fulvic acids!
• Plants take minerals from the earth in ionic
and colloidal form via their membranes.
30. • Studies conducted using colloidal trace minerals
as a folial spray produced dramatic results in the health
and growth rate of various plants. It should be
emphasized that all living cells, including
those in plant life, contain minerals in the
fulvic colloidal form, not the ionic form.
• It is a scientific fact that these minerals lend
themselves easily to absorption. It can therefore be
concluded that fulvic shale colloids of plant origin
also easily absorbed! When these mineral molecules
are chelated by fulvic acid it makes no difference if
they are ionic or colloidal in structure.
• Fulvic colloids extracted from fulvic shale are
0.005 microns in diameter with particles as
small as 0.001 microns in diameter.
• This diversity in size gives these fulvic mineral
colloids and ions some fascinating properties
smallest aggregates easily pass through the cell
membranes of tissue they contact, while others lend
themselves to ionic reactions or reaction with enzymes
in the digestive tract.
• This preparesthem for secondary
chelation in the bloodstream. This secondary
process rechelates some minerals with orotic
31. acids, which then targets the specific mineral to
specific areas in the body and cells.
• All ionic minerals(single molecule), eventually form
colloidal aggregates (more than one molecule) since all
human, animal, and plant cells contain minerals in their
fulvic colloidal form. Since colloids have more
than one molecule per particle, they lend
themselves easily to a variety of biochemical
reactions.
• It's the small particle size and the hydrophilic
nature of fulvic minerals that makes this possible.
• Fulvic colloids containing numerous molecules per
particle are often smaller than other minerals that
contain only one molecule.
• One example of this is a mineral chemically bound to an
amino acid, which is commonly known as an amino acid
chelate. Proteins and all minerals chelated with
protein are large molecules. Most fulvic colloidal
mineral particles contain several groups of molecules
that are smaller than a single protein molecule. Even an
amino acid chelated tablet is liquefied, micronized with
hydrochloric acid, and an enzyme, before it is reduced
to the molecular form. Try to dissolve an amino
acid chelated mineral tablet, or powder, in
32. water if you doubt this. It cannot be done!
• Producers of these mineral products are quick to
point out that fulvic colloidal minerals contain toxic
elements and therefore should be avoided. These
companies fail to realize that all mineral
products contain minute amounts of toxic
elements, especially lead.
• These elements are NOT in the hydrophilic, fulvic
colloidal form. For instance, arsenic is contained in
the earth's crust in 5.5 parts per million and is also
routinely found in earth extracted minerals, colloidal or
otherwise.
• Fulvic colloidal/ionic mineral products contain
trace
amounts of aluminum, lead, and arsenic
with aluminum usually being the most
abundant. Aluminum is the third most abundant
element in the earth's crust.
• All plant life contains some aluminum in a
hydrophilic fulvic colloidal form.
• Naturally occurring aluminum silicate found
in humic matter is nontoxic, and essential for the
development of normal healthy plants. Only metallic
aluminum (such as that found in deodorants
33. and cooking pans), may have adverse
effects.
• There is a definite difference between colloidal plant
derived aluminum and the aluminum found in cooking
pans. All plants convert metallic mineral ions into fulvic
colloidal/ionic minerals, which are micronized to
extremely small particle sizes. It is this
chelating by fulvic acids, the micronization
process, and photosynthesis that creates a
fulvic colloidal mineral that is perfectly utilized
by other biological systems. All fulvic colloidal
minerals from plants are non-toxic in reasonable
dosage. If one where to drink even 2 grains of iodine in
it's free non-colloidal form, it could end your life.
take the same amount of iodine in its plant
derived, fulvic, colloidal form, and it becomes
beneficial not harmful. This is also true for
plant derived lead, arsenic, cadmium,
aluminum etc.
• Fulvic colloidal/ionic minerals also contain
trace
amounts of lead that appears in 15 ppm of the
earth's crust. Ground-water commonly consumed as
drinking water also contains minute levels of lead.
34. • All mineral tablets, including amino acid chelates,
are derived from the hydrophobic rock minerals
such as calcium carbonate or zinc oxide.
• These minerals are ionized
and then
chemically bound to an amino acid
molecule. Most consumers are unaware that all
limestone and other rock minerals contain trace
amounts of lead and other heavy metals and no fulvic
acids!
• Mineral analyses are expressedin mg/l, that is the
equivalent to parts per million (ppm).
• Note that virtually all mineral products contain
aluminum, lead, and arsenic. Plants have
been absorbing these elements for
millions of years with no apparent
negative outcome.
• For example: According to the Agronomy
Handbook, bananas, beans, and many other plant foods
contain over 100 ppm (approximately 100
mg/l) aluminum per serving. Humans have also
been ingesting minute quantities of these same
elements since the earliest time of existence.
35. • The average diet contains 35 mcg cadmium, 40 mcg of
arsenic, 150 mcg of lead, and over 100 mg (ppm) of
aluminum daily.
• There is also evidence to suggest that these
elements may actually be essential for cellular
function, provided that they are bound to
fulvic acids. For example: when goats where
deprived completely of arsenic they where no
longer able to lactate. Studies have also been
conducted with other elements with similar results.
• Understand that safe ingestion of any mineral depends
on dosage and form. Therefore, when using any
trace mineral product, the consumer should
remember that these are trace mineral
supplements not macro-mineral supplements
Only small quantities are needed on a daily
basis. Taking a few drops of any fulvic concentrate,
an ounce of fulvic colloidal mineral water,
presents no danger of heavy metal
poisoning.
• All naturally derived fulvic colloidal/ionic minerals,
have trace amounts of minerals and elements,
exceeding those products claiming to be very low in, or
free of, aluminum, arsenic, lead, etc.,
37. attention that the farm located on the land where Tracite is
now extracted was the only place in the county where he
never paid a visit for the same health issues plaguing the
rest of the counties livestock. On further investigation he
discovered that the animals on this land were fed the same
feed as the counties other livestock. Even more puzzled
he began to look for other reasons why these
animals were so incredibly healthy.
After some time and a lot of observation he noticed one day
while walking the fields of the Farm that the horses, cows
and other animals were licking some kind of reddish-
brown mineral deposit that protruded from the
ground.
As he looked more closely he made a miraculous
discovery. When he began to unearth some of this
substance he was absolutely sure that he had never seen
any rock or mineral deposit that locked like this.
Later he discovered
that only about 40 or so
acres were covered with this mineral. The glaciers
had pushed this deposit to the top of a hill where it remains
today. Our land is the only land that contains these minerals
... a very rare deposit. He began to experiment and
discovered he could leach these precious
fulvic compounds connected to trace minerals and
elements out of the fulvic deposit by using only
38. water.
He began to sell this to other farmers and began taking
it himself. His health never suffered and the
story has it that he died near 100 years of
age.
This is a close-up of the incredible deposit more than 40
million years old. In this shot you can see that it is not very
far from the surface. Notice the abundance of color and the
shale-like consistency.
Tracite contains rich quantities fulvic acid discovered
one of the most important miracles of life itself.
Fulvic acid is a part of the humic structure in
rich composting soil.
It is an acid
created in extremely small
amounts by the action of millions of
beneficial microbes, working on decaying plant
matter in a soil environment with adequate
oxygen.
It is of low molecular weight and is biologically very
active. Because of its low molecular weight, it has the
necessity and ability to readily bond mineralsand elements
into its molecular structure causing them to dissolve and
become mobilized fulvic complexes.
Fulvic acid usually carries 70 or more minerals and
trace elements as part of its molecular complexes.