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The AAPG/Datapages Combined Publications Database

Journal of Sedimentary Research (SEPM)

Abstract


Journal of Sedimentary Petrology
Vol. 61 (1991)No. 2. (March), Pages 296-303

The Influence of Organic Matter in Organogenic Dolomitization: PERSPECTIVE

M. Slaughter, Ronald J. Hill

ABSTRACT

We hypothesize that the decomposition of organic debris derived from plants, planktonic animals, and algae by sulfate-reducing bacteria, and specifically by the enzymatic degradation of protein, is vital to organogenic dolomitization. The role of this degradation is to increase both alkalinity and pH of the pore waters, providing the necessary solution and surface chemistries for dolomitization to occur. Ammonia, derived by the enzymatic breakdown of proteins, is the only simple base available to supply the pH conditions necessary for dolomitization. Protein is abundant in organic matter derived from a marine source.

Because of the large enthalpies of hydration of Mg+2 and Ca+2 ions, we propose that dolomitization proceeds with the transfer of neutral ion pairs, CaCO30 and MgCO30, to and from the dolomite surface within a replacement zone. For this reason, dolomitization will occur only when the concentration of the CO3-2 ion is high and in large excess to the HCO3- ion in solution and at the carbonate crystal surface. These conditions will be met when the pH and/or ionic strength is high and the carbonate alkalinity is also high.


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