![SE - Precipitation of dolomite from seawater on a Carnian coastal plain ( Dolomites, northern Italy): evidence from carbonate petrography and Sr isotopes SE - Precipitation of dolomite from seawater on a Carnian coastal plain ( Dolomites, northern Italy): evidence from carbonate petrography and Sr isotopes](https://se.copernicus.org/articles/10/1243/2019/se-10-1243-2019-f11-web.png)
SE - Precipitation of dolomite from seawater on a Carnian coastal plain ( Dolomites, northern Italy): evidence from carbonate petrography and Sr isotopes
The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theore
DOLOMITE, VERY HIGH-MAGNESIUM CALCITE, AND MICROBES— IMPLICATIONS FOR THE MICROBIAL MODEL OF DOLOMITIZATION
![Controls of temperature, alkalinity and calcium carbonate reactant on the evolution of dolomite and magnesite stoichiometry and dolomite cation ordering degree - An experimental approach - ScienceDirect Controls of temperature, alkalinity and calcium carbonate reactant on the evolution of dolomite and magnesite stoichiometry and dolomite cation ordering degree - An experimental approach - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0009254119303997-gr6.jpg)
Controls of temperature, alkalinity and calcium carbonate reactant on the evolution of dolomite and magnesite stoichiometry and dolomite cation ordering degree - An experimental approach - ScienceDirect
![Modern dolomite formation caused by seasonal cycling of oxygenic phototrophs and anoxygenic phototrophs in a hypersaline sabkha | Scientific Reports Modern dolomite formation caused by seasonal cycling of oxygenic phototrophs and anoxygenic phototrophs in a hypersaline sabkha | Scientific Reports](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41598-021-83676-1/MediaObjects/41598_2021_83676_Fig1_HTML.jpg)
Modern dolomite formation caused by seasonal cycling of oxygenic phototrophs and anoxygenic phototrophs in a hypersaline sabkha | Scientific Reports
The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theore
![Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML](https://www.mdpi.com/minerals/minerals-08-00323/article_deploy/html/images/minerals-08-00323-g003.png)
Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML
![Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML](https://www.mdpi.com/minerals/minerals-11-00702/article_deploy/html/images/minerals-11-00702-g006.png)
Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML
![Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML](https://www.mdpi.com/minerals/minerals-08-00323/article_deploy/html/images/minerals-08-00323-g004.png)
Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML
![Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.1c04624/asset/images/large/ao1c04624_0011.jpeg)
Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega
![Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega](https://pubs.acs.org/cms/10.1021/acsomega.1c04624/asset/images/medium/ao1c04624_0002.gif)
Low-Temperature Synthesis of Disordered Dolomite and High-Magnesium Calcite in Ethanol–Water Solutions: The Solvation Effect and Implications | ACS Omega
![On the evolution of dolomite stoichiometry and cation order during high-temperature synthesis experiments: An alternative model for the geochemical evolution of natural dolomites - ScienceDirect On the evolution of dolomite stoichiometry and cation order during high-temperature synthesis experiments: An alternative model for the geochemical evolution of natural dolomites - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0037073811001965-gr1.jpg)
On the evolution of dolomite stoichiometry and cation order during high-temperature synthesis experiments: An alternative model for the geochemical evolution of natural dolomites - ScienceDirect
![Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML](https://www.mdpi.com/minerals/minerals-08-00323/article_deploy/html/images/minerals-08-00323-g001.png)
Minerals | Free Full-Text | (10.4) Face of Ordered and Disordered Dolomite, MgCa(CO3)2: A Computational Study to Reveal the Growth Mechanism | HTML
![On the evolution of dolomite stoichiometry and cation order during high-temperature synthesis experiments: An alternative model for the geochemical evolution of natural dolomites - ScienceDirect On the evolution of dolomite stoichiometry and cation order during high-temperature synthesis experiments: An alternative model for the geochemical evolution of natural dolomites - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0037073811001965-gr5.jpg)
On the evolution of dolomite stoichiometry and cation order during high-temperature synthesis experiments: An alternative model for the geochemical evolution of natural dolomites - ScienceDirect
![Structure of dolomite and the positions of nearest next neighbors. (a)... | Download Scientific Diagram Structure of dolomite and the positions of nearest next neighbors. (a)... | Download Scientific Diagram](https://www.researchgate.net/publication/283151589/figure/fig5/AS:853334437134336@1580462192100/Structure-of-dolomite-and-the-positions-of-nearest-next-neighbors-a-Ca-2th-blue-and.png)
Structure of dolomite and the positions of nearest next neighbors. (a)... | Download Scientific Diagram
![Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML Minerals | Free Full-Text | The Effect of Stoichiometry, Mg-Ca Distribution, and Iron, Manganese, and Zinc Impurities on the Dolomite Order Degree: A Theoretical Study | HTML](https://www.mdpi.com/minerals/minerals-11-00702/article_deploy/html/images/minerals-11-00702-g002.png)