238-5 Comparison of Evaporite Microbial Films from the Bahamas and the Dead Sea

See more from this Division: Topical Sessions
See more from this Session: Sulfates in the Solar System

Tuesday, 7 October 2008: 9:15 AM
George R. Brown Convention Center, 310BE

Penny Morris1, Robin L. Brigmon2 and Garriet W. Smith2, (1)Geology Department, Univ of Houston Downtown, Houston, TX
(2)Aiken, SC
Abstract:
Evaporitic environments are found in a variety of depositional environments as early as the Archean. The depositional settings, microbial community and mineralogical composition vary significantly as no two settings are identical. The common thread linking all of the settings is that evaporation exceeds precipitation resulting in elevated concentrations of cations and anions that are higher than in oceanic systems. The Dead Sea and Storrs Lake are examples of two diverse modern evaporitic settings as the former is below sea level and the latter is a coastal lake on an island in the Caribbean. Each system varies in water chemistry as the Dead Sea dissolved ions originate from surface weathered materials, springs, and aquifers while Storrs Lake dissolved ion concentration is primarily derived from sea water. Consequently some of the ions, i.e., Sr, Ba are found at significantly lower concentrations in Storrs Lake than in the Dead Sea. The origin of the dissolved ions are ultimately responsible for the pH of each system, alkaline versus mildly acidic. Each system exhibits unique biogeochemical properties as the extreme environments select certain microorganisms. Storrs Lake possesses significant biofilms and stromatolitic deposits and the alkalinity varies depending on rainfall and storm activity. The microbial community Storrs Lake is much more diverse and active than those observed in the Dead Sea. The Dead Sea waters are mildly acidic, lack stromatolites, and possess a lower density of microbial populations. The general absence of microbial and biofilm fossilization is due to the depletion of HCO3 and slightly acidic pH.

See more from this Division: Topical Sessions
See more from this Session: Sulfates in the Solar System