Calcite rafts

Calcite crystals form on the surface of quiescent bodies of water, even when the bulk water is not supersaturated with respect to calcium carbonate. The crystals grow, attach to one other and appear to be floating rafts of a white, opaque material. The floating materials have been referred to as calcite rafts or “leopard spots.”

SEM photo showing calcite rafts
BSE-SEM image at 89 times magnification showing topsides of the calcite rafts (flat surfaces) and bottom crystals growing underneath

Chemistry

Calcium carbonate is known to precipitate as calcite crystals in water supersaturated with calcium and carbonate ions. Under quiescent conditions, calcite crystals can form on a water surface when calcium carbonate supersaturation conditions do not exist in the bulk water. Water evaporates from the surface and carbon dioxide degasses from the surface layer to create a thin layer of water with high pH and concentrations of calcium and carbonate ions far above the saturation concentration for calcium carbonate. Calcite crystals precipitate in this highly localized environment and attach to one another to form what appear to be rafts of a white material. [1]

Photo showing calcite rafts in Kartchner Caverns, Arizona
Calcite rafts in Kartchner Caverns, Arizona

Scanning electron micrographs of calcite rafts show interconnected calcite crystals formed around holes on the raft surface. The holes may be caused by air bubbles or other foreign matter on the water surface.[2] Micrographs of calcite rafts show lace-like structure. The surface tension of the water keeps the interconnected calcite crystals, which individually have a specific gravity of 2.7, floating on the water surface.

Cave and river system formation

Photo showing Carpinteria Reservoir with rigid aluminum cover
Carpinteria Reservoir with rigid aluminum cover
Photo showing calcite rafts on surface of water in Carpinteria Reservoir
Calcite rafts on the surface of water in Carpinteria Reservoir
Photo showing detail of calcite rafts on surface of water in Carpinteria Reservoir
Detail of calcite rafts on the surface of water in Carpinteria Reservoir

Calcite rafts are most commonly formed in limestone cave systems. Limestone caves provide a favorable environment due to little air movement and water containing significant concentrations of calcium and carbonate ions. Evidence of calcite rafts has been found in limestone caves all over the world. [2][3][4][5]

One example of calcite raft formation in a spring-fed river system has been reported. [1]

Drinking water reservoir

In 2005, the Carpenteria Valley Water District in Carpenteria, California, raised water quality concerns when “leopard spots” approximately 5 to 10 cm. in diameter appeared on the water surface under a newly constructed aluminum reservoir cover. The floating material had not been observed when the reservoir (13 million gallons) was open to the atmosphere. The concern raised was that a potentially toxic metallic precipitate was forming on the water surface from condensate dripping from the metal cover. [6][7]

Water analyses found that the water in the reservoir was saturated with respect to calcium carbonate but no calcite crystals were formed in the bulk solution. X-ray diffraction analysis showed that the floating solid material was greater than 97 percent calcite. Scanning electron micrographs confirmed that the shape of the crystalline material was rhombohedral, which is consistent with calcite crystal formation. [6][7]

While the floating material was not toxic, it was recommended that movement of the water surface be induced so that quiescent conditions would be avoided which would eliminate the primary condition for calcite raft formation. [6][7]

References

  1. 1 2 Taylor, P.M., Drysdale, R.N. and Carthew, K.D. (2004). “The formation and environmental significance of calcite rafts in tropical tufa-depositing rivers of northern Australia.” Sedimentology. 51:5 October. 1089.
  2. 1 2 Taylor, P.M. and Chafetz, H.S. (2004). “Floating Rafts of Calcite Crystals in Cave Pools, Central Texas, USA.” Jour. Sedimentary Res. 74:3 328-41.
  3. Davis, Donald G. (2000). “Extraordinary Features of Lechuguilla Cave, Guadalupe Mountains, New Mexico.” Jour. Cave and Karst Studies. 62:2 147-57.
  4. van Hengstum, P.J., et al. (2011). “Sea Level Controls Sedimentation and Environments in Coastal Caves and Sinkholes.” Marine Geology. 286: 35-50.
  5. Juhasz, E., Korpas, L. and Balog, A. (1995). “200-Million Years of Karst History, Dachsein Limeson, Hungary.” Sedimentology. 42:3 473-89.
  6. 1 2 3 McGuire, M.J., Blute, N.K., Hamilton, C., and Brabander, D.J. (2005). “Why Are There Leopard Spots Floating on My Covered Reservoir.” presented at the Fall Conference, California Nevada Section, American Water Works Association, Reno, NV, October 10-14.
  7. 1 2 3 McGuire, M.J., Blute, N.K., Hamilton, C., and Brabander, D.J. (2006). “Formation of Floating Calcite Rafts in a Drinking Water Reservoir.” Proceedings Water Quality Technology Conference. American Water Works Association, Denver Colorado, November 6.

External links

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