Aragonite based ground covering

What is claimed is: 1. A synthetic ground cover, comprising: a plurality of synthetic turf fibers coupled to a backing to form synthetic artificial turf structure; aragonite particles disposed proximate to the synthetic turf fibers; and wherein the aragonite particles are microporous oolitic aragonite particles having a evaporative cooling surface. 2. The ground cover of claim 1 , wherein the aragonite particles comprise dredged, not mined, micronized oolitic aragonite. 3. The ground cover of claim 1 , wherein the aragonite particles have an average size of less than 1 mm. 4. The ground cover of claim 1 , wherein the aragonite particles have a surface area of at least 1.5 m 2 /g. 5. The ground cover of claim 1 , wherein at least some of the aragonite particles are colored and/or comprise an antimicrobial agent. 6. The ground cover of claim 1 , wherein the aragonite particles have a saturation constant (K sat ) of at least 50 in/hr. 7. The ground cover of claim 1 , wherein the ground cover has an aeration porosity of between about 15% to about 30% at depth of about 6 inches to about 8 inches. 8. A method of cooling a synthetic artificial turf structure, comprising: providing an artificial turf structure that comprises a plurality of synthetic turf fibers coupled to a backing; disposing a plurality of microporous oolitic aragonite particles proximate to the synthetic turf fibers; and wherein the aragonite particles are dredged, not mined, and have water evaporation properties to cool the artificial turf structure. 9. The method of claim 8 , wherein the temperature of the artificial turf structure is reduced by about 10° F. up to about 20° F. as compared to the silica filler. 10. The method of claim 8 , wherein the aragonite particles have a saturation constant (K sat ) of at least 50 in/hr. 11. The method of claim 8 , wherein the aragonite particles have a high microporosity, caused by the unique crystalline morphology (orthorhombic), and high surface area, approximately 1.82 square meters per gram, both of which aid in trapping moisture internally and allowing evaporative cooling within the particles thus by the nature of the aragonite's infill between the blades of synthetic turf the aragonite lowers the artificial synthetic turf temperature. 12. The method of claim 8 , wherein the aragonite particles are classified and or micronized particles having a uniform graded sizing between 150 microns and 850 microns with a uniform ooid shape thus stacking within the artificial synthetic turf in a manner which helps to disperse impact energy in a manner which aids in the reduction of sports injury, as in scrapes and bruises. 13. A synthetic ground cover, comprising: dredged, not milled, minerals from living organisms; and a plurality of synthetic turf fibers coupled to a backing to form synthetic artificial turf structure; wherein the dredged minerals are disposed proximate to the synthetic turf fibers. 14. The synthetic ground cover of claim 13 , wherein the minerals comprise CaCO 3 . 15. The synthetic ground cover of claim 13 , wherein the minerals comprise aragonite. 16. The synthetic ground cover of claim 13 , wherein the minerals are microporous having a surface that traps moisture. 17. The synthetic ground cover of claim 16 , wherein the trapped moisture evaporatively cools the synthetic groundcover. 18. The synthetic ground cover of claim 16 , wherein the temperature of the artificial turf structure is reduced by about 10° F. 19. The synthetic ground cover of claim 16 , wherein the temperature of the artificial turf structure is reduced by about 20° F. as compared to the silica filler. 20. The synthetic ground cover of claim 13 , wherein the minerals particles have a saturation constant (K sat ) of at least 50 in/hr.