白云石化
白云石
热液循环
地质学
方解石
高岭石
地球化学
粘土矿物
伊利石
针铁矿
再结晶(地质)
溶解
沉积岩
成核
矿物学
矿物
成岩作用
碳酸盐矿物
降水
白云岩
石膏
绿泥石
化学工程
作者
Abdulwahab Muhammad Bello,Abduljamiu O. Amao,Anas Muhammad Salisu,Khalid Al‐Ramadan
出处
期刊:Geology
[Geological Society of America]
日期:2025-09-24
卷期号:53 (12): 1040-1045
被引量:4
摘要
Abstract Dolomite formation remains a debated topic in sedimentary geology, particularly concerning the mechanisms driving its precipitation under natural conditions. While microbial processes have been well studied, the influence of abiotic factors, such as clay minerals, is less understood. This study uses hydrothermal reactor experiments at 80–250 °C to examine the role of clay minerals in post-compactional dolomitization. Results show that smectite and illite effectively promote dolomitization by providing nucleation sites and aiding Mg2+ dehydration through their highly negative surface charges. In contrast, kaolinite and dickite were less effective due to their charge neutrality. In calcite-kaolinite mixtures, dolomite formed at 200 °C when kaolinite partially converted to smectite but was inhibited at 250 °C due to dickite formation. Samples containing only calcite showed little to no dolomite formation, highlighting the role of reactive clays. Dolomitization occurred through two mechanisms: (1) complete calcite dissolution followed by dolomite nucleation, and (2) recrystallization with progressive Mg incorporation. These findings support clay-catalyzed dolomitization as a significant abiotic pathway in ancient muddy carbonates and mixed clastic-carbonate systems.
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