Paper No. 6
Presentation Time: 2:50 PM
Temporal Variability of Cave-Air CO2 in Central Texas
COWAN, Brian D., Jackson School of Geosciences, The University of Texas at Austin, Austin, TX 78712, OSBORNE, Michael C., Department of Geological and Environmental Sciences, Stanford University, Stanford, CA 94305 and BANNER, Jay L., Dept. of Geological Sciences, Jackson School of Geosciences, The University of Texas at Austin, Austin, TX 78712, BC1774@gmail.com
The growth rate and elemental and chemical composition of cave calcite deposits (speleothems) are important proxies for past environmental and hydrologic changes. Understanding the timing and driving mechanisms of calcite growth is therefore important for interpreting such proxies. The deposition of speleothem calcite in two central Texas show caves 130 km apart is known to vary seasonally in response to fluctuations in cave-air CO
2. Calcite deposition is highest in the late fall through spring when cave-air CO
2 is lowest, likely due to density driven ventilation. In the warmer summer months, when cave air becomes stagnant and high CO
2 concentrations develop, calcite deposition decreases to near zero. To determine if this phenomenon is unique to show caves, which, have been modified from their natural state (e.g., enlarged entrances, high numbers of visitors), CO
2 was measured along transects in three wild caves within the central Texas region.
Multiple transects of each cave showed that cave-air CO2 varies seasonally in all undeveloped caves, with peak concentrations in late August to early October and lower concentrations in December through late March. The timing of seasonal CO2 fluctuations is consistent in all caves studied. Cave-air CO2 also shows significant diurnal fluctuations that are well correlated with changes in surface air temperature and barometric pressure. These results indicate that 1) the seasonality of calcite deposition observed in the show caves (as controlled by the concentration of cave-air CO2) is not due to human alteration of the caves, 2) the concentration of cave-air CO2 varies significantly on multiple timescales (i.e. daily to seasonally), 3) the seasonal fluctuation of cave-air CO2 is regional in extent.