Dolomitization is a

geological Geology (). is a branch of natural science concerned with the Earth and other astronomical objects, the rocks of which they are composed, and the processes by which they change over time. Modern geology significantly overlaps all other Earth s ...

process where

magnesium Magnesium is a chemical element; it has Symbol (chemistry), symbol Mg and atomic number 12. It is a shiny gray metal having a low density, low melting point and high chemical reactivity. Like the other alkaline earth metals (group 2 ...

ions An ion () is an atom or molecule with a net electrical charge. The charge of an electron is considered to be negative by convention and this charge is equal and opposite to the charge of a proton, which is considered to be positive by convent ...

replace calcium ions in the

mineral In geology and mineralogy, a mineral or mineral species is, broadly speaking, a solid substance with a fairly well-defined chemical composition and a specific crystal structure that occurs naturally in pure form.John P. Rafferty, ed. (2011): Mi ...

calcite Calcite is a Carbonate minerals, carbonate mineral and the most stable Polymorphism (materials science), polymorph of calcium carbonate (CaCO3). It is a very common mineral, particularly as a component of limestone. Calcite defines hardness 3 on ...

, resulting in the formation of dolomite. Dolomitization conditions are present in

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, the

Mediterranean Sea The Mediterranean Sea ( ) is a sea connected to the Atlantic Ocean, surrounded by the Mediterranean basin and almost completely enclosed by land: on the east by the Levant in West Asia, on the north by Anatolia in West Asia and Southern Eur ...

, and some Brazilian hypersaline lagoons (most notably Lagoa Vermelha Lagoon). The areas where dolomitization take place are limited, as modern seawater is less suited to dolomite formation. This is evident in the noticeable decrease in modern dolomite depositions compared to older depositions. Dolomitization involves substantial recrystallization which can be described by the following equation: 2 CaCO_3(calcite) + Mg²⁺ ↔ CaMg(CO₃)_2(dolomite) + Ca²⁺ The conditions for dolomitization depend on several factors, including

temperature Temperature is a physical quantity that quantitatively expresses the attribute of hotness or coldness. Temperature is measurement, measured with a thermometer. It reflects the average kinetic energy of the vibrating and colliding atoms making ...

, saturation state, Mg:Ca ratio, and the presence of inhibitors and

microorganisms A microorganism, or microbe, is an organism of microscopic size, which may exist in its single-celled form or as a colony of cells. The possible existence of unseen microbial life was suspected from antiquity, with an early attestation in ...

.Microorganisms allow the

precipitation In meteorology, precipitation is any product of the condensation of atmospheric water vapor that falls from clouds due to gravitational pull. The main forms of precipitation include drizzle, rain, rain and snow mixed ("sleet" in Commonwe ...

of preliminary dolomite stages through certain metabolic pathways. Dolomitization occurs in kinetic intermediate stages. First, a protodolomite is formed, then it is transformed to dolomite in a dissolution-recrystallization process.

Microbes and Dolomitization

Microorganisms allow the precipitation of dolomite by raising

alkalinity Alkalinity (from ) is the capacity of water to resist Freshwater acidification, acidification. It should not be confused with base (chemistry), basicity, which is an absolute measurement on the pH scale. Alkalinity is the strength of a buffer s ...

and increasing pH buffering through metabolic pathways. Higher alkalinity leads to the transformation of HCO₃^- to CO₃^2-, which allows for interruption of the magnesium hydrate to form dolomite. In most modern dolomitization sites, ‘ microbial mats’ are present. Microbial mats are populations of microorganisms and their associated extracellular polymeric substances (EPS). EPS groups have been shown to be critical for the formation of stable nuclei in the early stages of dolomite formation, thus increasing dolomite saturation. There are several key metabolic pathways for dolomite formation. These include microbial sulfate reduction, aerobic heterotrophy, chemotrophic sulfide

oxidation Redox ( , , reduction–oxidation or oxidation–reduction) is a type of chemical reaction in which the oxidation states of the reactants change. Oxidation is the loss of electrons or an increase in the oxidation state, while reduction is ...

, and the coupling of methanogenesis and anaerobic methane oxidation.

Microbial Sulfate Reduction

Microbial sulfate reduction reduces sulfate concentrations in seawaters, effectively removing one of the key inhibiting factors to dolomitization. This process also results in the production of sulfide ions, which promote Mg2+ dehydration.

Aerobic Heterotrophy

Aerobic heterotrophy increases alkalinity by using nitrogenized organic matter as an electron acceptor.

Chemotrophic Sulfate Oxidation

In chemotrophic sulfide oxidation, organisms use sulfide for CO₂ fixation, leading to seawater conditions that are thermodynamically favorable for dolomite formation.

Methanogenesis and Anaerobic Methane Oxidation

Methanogenic archaea support dolomite formation through the coupling of methanogenesis and anaerobic methane oxidation. This coupling increases CO₃^2- concentration and sulfate reduction, leading to increased dolomite saturation.

Inhibitors to Dolomitization

Mg²⁺ Hydration

Mg²⁺ hydration inhibits dolomitization because in ambient conditions, the closeness of water molecules and magnesium ions reduces the ease at which Mg²⁺ enters the carbonate lattice. This can be partially overcome with the help of microorganisms.

Sulfate Presence

Presence of sulfate results in tight ion pairs of SO₄^2- and Mg²⁺, preventing magnesium from joining the dolomite lattice. It has been suggested that this effect is less strong at lower temperatures.

Low Carbonate Activity

In modern seawater, carbonate ion concentration is lower compared to Mg²⁺ concentration.

The Dolomite Problem

The 'Dolomite Problem' refers to the fact that dolomite is difficult to precipitate experimentally in ambient conditions and that it precipitates at a starkly lower rate in the modern ocean compared to geologic history (despite modern seawater’s supersaturation of dolomite). Ordered dolomite can be produced in a lab at high temperatures.{{Cite journal , last1=Kim , first1=Joonsoo , last2=Kimura , first2=Yuki , last3=Puchala , first3=Brian , last4=Yamazaki , first4=Tomoya , last5=Becker , first5=Udo , last6=Sun , first6=Wenhao , date=2023-11-24 , title=Dissolution enables dolomite crystal growth near ambient conditions , url=https://www.science.org/doi/10.1126/science.adi3690 , journal=Science , language=en , volume=382 , issue=6673 , pages=915–920 , doi=10.1126/science.adi3690 , pmid=37995221 , bibcode=2023Sci...382..915K , issn=0036-8075, url-access=subscription Past laboratory experiments have sought to produce dolomite in ambient conditions, however the resulting products lacked cation ordering, indicating the product was not strictly dolomite, but disordered dolomite. A recent study claims to have produced an ordered dolomite by fluctuating between

supersaturated In physical chemistry, supersaturation occurs with a solution when the concentration of a solute exceeds the concentration specified by the value of solubility at equilibrium. Most commonly the term is applied to a solution of a solid in a ...

and undersaturated states. In this proposed mechanism, initial dolomite precipitation results in a cation-disordered surface. Subsequent undersaturation dissolves the disordered crystals and allows for increased order when precipitated again. Modern dolomitization zones frequently experience alternating periods with and without rain, which in turn allows for fluctuation in saturation state. Saturation fluctuations can increase dolomite precipitation up to 7 orders of magnitude.

References

Dolomite group Calcite group Geological processes Inorganic reactions Mineralogy Dolomite (rock)