白云石非经典结晶演化机制实例:从成核到完全有序的微观记录

A case study on nonclassical crystallization evolution mechanism of dolomite: microscale records from nucleation to fully ordered form

  • 摘要: 白云岩是重要的油气储层载体,其成因机制长期以来是沉积学与石油地质领域的争议热点,核心科学矛盾在于:地质历史时期地层中广泛发育高有序度白云石,但其在现代沉积环境中鲜有分布,且近地表条件下难以人工直接合成。为揭示有序白云石的结晶机理,尤其是纳米尺度下的微观演化路径,以四川盆地杨坝剖面埃迪卡拉系灯影组白云岩为研究对象,借助岩石薄片观察、扫描电镜观测、能谱分析及原位拉曼光谱分析等技术手段,系统剖析白云石微观结构特征。研究结果显示:杨坝剖面灯影组二段白云岩以叠层石白云岩和凝块石白云岩为主;扫描电镜下识别出球状—亚球状、棒状、花束状及花瓣状四类纳米级特殊形貌集合体,能谱分析证实其为自生碳酸盐组分,而非外来污染物;该类集合体由纳米颗粒附着组装形成,具备非经典结晶过程中亚稳态中间产物的典型特征,是此类结晶路径中关键且普遍存在的前驱相,微生物活动与有机分子对其形成及保存具有显著控制作用;上述纳米集合体可见局部溶解现象,边缘逐步发育规则菱形晶体结构,记录了其通过溶解—再沉淀过程向热力学稳定相转化,最终形成菱形自形有序白云石的完整过程。从微观尺度明晰了白云石经非经典结晶形成亚稳态中间相,再通过溶解—再沉淀过程演化为有序白云石的完整路径,为解析自然条件下白云石成因机制提供了新的理论依据。

     

    Abstract: Dolomite serves as an important reservoir rock for oil and gas, and its genesis has long been a controversial topic in sedimentology and petroleum geology. The core contradiction lies in that highly ordered dolomites are widely developed in strata throughout geological history, but rarely found in modern sedimentary environments, and they are difficult to be directly synthesized under near-surface conditions. To reveal the crystallization mechanism of ordered dolomites, particularly their evolution pathway at the nanoscale, dolomites from the Ediacaran Dengying Formation at the Yangba section of the Sichuan Basin were taken as the research object. The microstructural characteristics of dolomites were systematically analyzed through rock thin-section observations, scanning electron microscopy (SEM), energy-dispersive spectroscopy (EDS), and in situ Raman spectroscopy. The results showed that dolomites from the second member of the Dengying Formation at the Yangba section were mainly composed of stromatolite dolomites and thrombolite dolomites. SEM observations revealed four types of nanoscale aggregates with special morphologies, including spherical-subspherical, rod-shaped, bouquet-like, and petal-like forms. EDS analyses confirmed that these aggregates were authigenic carbonates rather than exogenous contaminants. These aggregates were formed by the attachment and assembly of nanoparticles and exhibited typical characteristic morphologies of metastable intermediates in a nonclassical crystallization process. They were key and ubiquitous precursors in such crystallization pathway. Microbial activities and organic molecules had a significant controlling effect on the formation and preservation of these aggregates. Localized dissolution was observed in these nano-aggregates, and regular rhombic crystal structures gradually developed at their boundaries. This recorded the complete transition process of the aggregates to thermodynamically stable phases through dissolution-reprecipitation, and ultimately to the formation of rhombic euhedral ordered dolomites. This study clarifies a complete pathway of dolomite formation at the microscale, during which dolomites form as a metastable intermediate phase via nonclassical crystallization and subsequently evolve into an ordered structure through dissolution-reprecipitation. The findings offer a new theoretical framework for understanding the formation mechanism of dolomites under natural conditions.

     

/

返回文章
返回