Abstract
AbstractThe dolomitization and diagenetic history of Ordovician carbonates of southern Wisconsin is complex. Previous studies attributed dolomitization to various diagenetic factors and environments. In this study, high‐resolution, in situ laser ablation inductively coupled mass spectrometry analysis of rare earth element patterns of dolomite was used to assess the diagenetic fluids responsible for dolomitization of the Ordovician Decorah Formation. Integrated geochemical data and petrographic evidence suggest that the dolostones are formed in two different diagenetic realms: shallow burial and hydrothermal. Shallow burial dolomites exhibit three distinct rare earth element patterns. Dolomite from the middle portion of the Guttenberg Member exhibits light rare earth element enrichment consistent with early burial dolomitization. Dolomites of the Carimona, Specht's Ferry and Lower Guttenberg members are often burrow associated and exhibit medium rare earth element enrichment associated with Fe‐oxide desorption in anoxic porewaters. Leaching of Mg from co‐occurring volcanic ash during alteration is a probable source that contributed to the dolomitization. Extensively dolomitized samples in the upper Guttenberg and Ion Member exhibit evidence of hydrothermal dolomitization. The relationship of these heavily dolomitized samples to interbedded limestones provides evidence for a recently proposed hydrothermal dolomitization model invoking pressure solution of calcite and precipitation of dolomite. These early burial and hydrothermal depositional models are consistent with models proposed for overlying and underlying Ordovician dolostones.
Highlights
Petrographic and CL characteristics were combined with in situ geochemical rare earth element (REE) analysis techniques of LA‐inductively coupled plasma mass spectrometry (ICP‐MS) on these dolomites to provide a new means of interpreting the history of dolomitization
REE data can be a powerful tool in the analysis of palaeoceanographic and diagenetic conditions in carbonates, this study, as with similar investigations, revealed that even minor contamination can greatly hinder the utility of the geochemical diagenetic proxy
Petrographic and geochemical results were combined to reveal that the dolomite in the Carimona Member, Specht's Ferry Member, Guttenberg Member and Ion Member were largely formed in two realms, shallow burial and hydrothermal
Summary
Dolomitized strata surrounding the Michigan Basin in northern Illinois and eastern Wisconsin (Figures 1 and 2) have been studied due to the hydrocarbon reservoir production potential of these Ordovician rocks (Luczaj, 2006; Yoo, Gregg, & Shelton, 2000) but no consensus exists on the dolomitization process (Asquith, 1967; Badiozamani, 1973; Deininger, 1964; Luczaj, 2006; Smith & Simo, 1997). Badiozamani (1973) proposed the “Dorag” model that involved mixing of meteoric water from runoff with sea water. Badiozamani (1973) proposed the “Dorag” model that involved mixing of meteoric water from runoff with sea water According to this model, the mixing of different water masses provided a means of overcoming the kinetic barriers to dolomite formation. UCC‐normalized REE patterns of sea water and carbonates retaining sea water or sea water‐like geochemical signatures exhibit light rare earth element (LREE, i.e., La–Nd) depletion relative to HREE (Ho–Lu) and a distinctly noticeable negative Ce anomaly due to the oxic nature of normal sea water (Piper & Bau, 2013) Variation from this sea water‐like REE trend is an indication of influence by fluids with distinctly non‐sea water‐like geochemical properties (Banner et al, 1988). Concentrations of Ba, Fe and Sr when compared to those of Mn can help in estimating diagenetic fluid characteristics like hydrothermal influence, redox state and recrystallization respectively (Azomani et al, 2013; Frimmel, 2009; Zhang et al, 2014)
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