2004 Denver Annual Meeting (November 710, 2004)
Paper No. 149-15
Presentation Time: 8:00 AM-12:00 PM

RHIZOLITH STABLE ISOTOPE PATTERNS FROM PILOT VALLEY PLAYA, UTAH

LIUTKUS, Cynthia M. and WRIGHT, James D., Geological Sciences, Rutgers Univ, 610 Taylor Road, Piscataway, NJ 08854, liutkus@rci.rutgers.edu

Carbonates often accompany lake and lake-margin deposits in both modern and ancient geologic settings. If precipitated in equilibrium with the local waters, their stable isotope records reflect the prevailing climate (arid vs. wet) and regional ecological parameters. Carbonate rhizoliths and water samples were collected from a playa lake in western Utah. Pilot Valley (~43N) is a closed-basin, remnant playa from the Quaternary desiccation of paleo-Lake Bonneville.  Freshwater springs dot the playa margin at the base of an alluvial fan. The regional climate is one of low precipitation (<150mm/year), high summer evaporation, and extreme temperatures with moderately high wind speeds during the spring. Values from rhizolith samples range from 0.6 to 9.7 and 14.7 to 6.7 for d13C and d18O respectively (V-PDB).  The average d13C value is 3.0, and the average d18O value is 11.2 (1-s S.D.=1.2 and 1.8 respectively).  Published dwater values vary from 16 (V-SMOW) in the springs to 3 in the playa proper.  Covariance between carbon and oxygen isotopes within individual rhizoliths is not apparent.  The oxygen isotope signal reflects primarily the highly evaporative conditions on the playa flat where the rhizoliths form.  If there was no evaporative increase in the dwater, the rhizolith d18O values would require formation temperatures colder than 12C.  Assuming a more realistic calcification temperature of 30C, the rhizolith d18O values would indicate precipitation in waters with dwater values of 12 to 4 (V-SMOW), consistent with the observed values.  Certainly both variables (temperature and dwater) change.  However the potential for CaCO3 precipitation is enhanced with increased alkalinity and evaporation.  We interpret the high d13C values as reflecting gas exchange between the playa waters and the atmosphere.  At 30C, atmospheric d13C values of ~-8 exchange with water DIC and the resulting calcite precipitate should record ~ 2 d13C, which is similar to the measured average rhizolith d13C values.  The lack of covariance is due to high carbonate alkalinity, which weakens the d13C response to changes in freshwater input.  The range in each isotope creates a shallow trend to the data that is unique to semiarid climates.   

2004 Denver Annual Meeting (November 710, 2004)
General Information for this Meeting
Session No. 149--Booth# 28
Geochemistry Aqueous (Posters)
Colorado Convention Center: Exhibit Hall
8:00 AM-12:00 PM, Tuesday, 9 November 2004

Geological Society of America Abstracts with Programs, Vol. 36, No. 5, p. 358

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