2008 Joint Meeting of The Geological Society of America, Soil Science Society of America, American Society of Agronomy, Crop Science Society of America, Gulf Coast Association of Geological Societies with the Gulf Coast Section of SEPM

Paper No. 5
Presentation Time: 2:30 PM

Paleoclimate Implications from a Geochronologic and Sr Isotope Study of a Bahamian Speleothem from San Salvador, Bahamas


GREENE, Lauren E.1, BANNER, Jay L.1, MACK, Lawrence E.1 and MYLROIE, John E.2, (1)Jackson School of Geosciences, The University of Texas at Austin, Austin, TX 78712, (2)Geosciences, Mississippi State University, P.O. Box 5448, Mississippi State, MS 39762, legreene@gmail.com

Strontium and U-Th isotope data from a stalagmite from Lighthouse Cave on San Salvador Island, Bahamas were analyzed in order to assess the utility of Sr as a proxy to interpret Late Pleistocene to Holocene rainfall variations in the Bahamas. The soil above the cave, the limestone host rock, and the cave drip-waters have distinctive 87Sr/86Sr values. Drip-water compositions are intermediate between relatively high soil values and low limestone values, reflecting derivation of dissolved Sr in vadose waters from a balance between ion-exchange processes in soils and carbonate mineral-solution reactions in the limestone. Changes in this balance over time, as recorded in the speleothem Sr isotopes, may yield insight into changes in flow paths and residence time in the limestone. Speleothem Sr samples were assigned ages based on 238U-230Th geochronometry. Between 32.8–31.9 ka the speleothem 87Sr/86Sr values are slightly higher and resemble modern soil 87Sr/86Sr values, and at 5.3 ka the 87Sr/86Sr values for the speleothem are slightly lower and more closely resemble the limestone 87Sr/86Sr values. The temporal changes in the 87Sr/86Sr values may reflect shifts to more diffuse vadose water flow paths around 5 ka, which in turn may be a function of lower effective precipitation. The speleothem exhibits fast growth (0.1 mm yr-1) during 32.8-31.9 ka, followed by a hiatus in growth after 31.9 ka, and slower growth (0.001 mm yr-1) after 5.3 ka. These changes in the growth rate, coupled with the 87Sr/86Sr values of the speleothem, are interpreted to reflect climate shifts between wetter conditions in the Bahamas during 32.8-31.9 ka and drier conditions from 31.9 ka to the present day.