This is the original T.J. Clark formula, containing up to 72 trace minerals & elements from authentic prehistoric plant deposits. There are no added ingredients.
This is the original T.J. Clark colloidal mineral formula, containing up to 72 trace minerals & elements from authentic prehistoric plant deposits. There are no added ingredients.
The Legend of T.J. Clark
In the early 1920’s, Tom Clark was diagnosed with a life-threatening illness which caused his body to deteriorate until he only weighed 97 pounds and was in constant pain. Desperate to find a cure, his Native American friends told him they used to take their sick to a sacred spring to heal. Tom eventually found an older tribe member who remembered the spring and its location. Tom began to drink from it and, after a period of time, his health improved. After much experimentation, he was able to harness the magic of this sacred spring and bottle it. Word soon spread of Tom Clark’s discovery. In the 1950’s, he passed on his secret formula to his grandson and namesake, Tom Clark. Today, after four generations, T.J. Clark & Company is still the only source in the world for this miraculous formula from the “sacred spring,” now the site of the T.J. Clark Mine. *
This product is certified by the U.S. Department of the Interior to be from the T.J. Clark Mine, the original and only source of Polyfloramin from the 100 million year old rain forest.
Ingredients: Liquid Colloidal Trace Mineral Compounds – 30 ml, including: Antimony, Aluminum, Barium, Beryllium, Bismuth, Boron, Bromine, Carbon, Cerium*, Cesium*, Chromium, Cobalt, Dysprosium, Erbium, Europium*, Flourine, Gadolinium*, Gallium*, Gold, Hafnium, Hydrogen, Iridium*, Iron, Lanthanum*, Lithium, Lutetium*, Neodymium, Nickel, Niobium, Osmium, Oxygen, Palladium*, Platinum*, Praseodymium, Rhenium*, Rhodium*, Rubidium*, Ruthenium*, Samarium*, Scandium*, Silicon, Silver, Strontium*, Tantalum*, Tellurium, Terbium, Thallium*, Thorium*, Tin, Titanium, Tungsten, Vanadium*, Ytterbium, Yttrium, Zirconium.* (Minerals listed are typical and do vary from batch to batch.)