Newly discovered Botryococcus-rich source rocks in the western Qaidam Basin, NW China and their implications for shale oil exploration in saline lacustrine basins

Mingzhen Zhang , Peihong Jin , Mingxiang Zhang , Liming Ji , Jing Zhang
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Abstract

Owing to the high hydrocarbon content and photosynthetic efficiency of phytoplankton, planktonic microalgae account for the main source of petroleum hydrocarbons in marine and continental petroliferous basins. Therefore, the presence of algal residues in such basins is considered an important indicator of high-quality hydrocarbon source rocks. The southwestern region of the Qaidam Basin, characterized by lacustrine deposits from the Paleogene, has substantial petroleum resources. However, studies on the development of source rocks and the mechanisms involved in their organic matter enrichment are insufficient, thus hampering ongoing shale oil exploration efforts. Herein, abundant Botryococcus fossils were discovered in the main source rocks of the upper member of Xiaganchaigou Formation of Paleogene in Southwest Qaidam, accounting for >50 % of the total organic matter content. The palynofacies assemblages reflected relatively distal and oxygen-rich sedimentary environments. The algae-rich rocks usually exhibited distinctive laminated structures alternately composed of quartz-feldspathic, clay and carbonate laminae, indicating periodic climate fluctuations. The Botryococcus, which was mainly preserved in the coarse-grain quartz-feldspathic laminae, probably reflected heavy precipitation conditions and subsequently high nutrient inputs. Finally, the oxygen-rich, low salinity and eutrophic water was likely taking form which benefit the growth of these hydrobiontic algae. These algal-rich shales exhibited typically high hydrogen index (IH) and total organic carbon (TOC) values, indicating their high hydrocarbon-generation potential. Thus, they are important marker beds for high-quality source rocks in petroliferous basins. Concurrently, the coarse-grained detrital mineral laminae displayed excellent reservoir physical properties, probably providing sufficient reservoir space for planktonic algae-derived liquid hydrocarbon. Therefore, these Botryococcus-rich source rocks might represent important targets for ongoing shale oil exploration.

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柴达木盆地西部新发现的富葡萄球菌烃源岩及其对咸化湖盆页岩油勘探的意义
浮游微藻由于其高烃含量和高光合效率,是海相和陆相含油气盆地石油烃的主要来源。因此,这些盆地中存在藻渣被认为是优质烃源岩的重要标志。柴达木盆地西南地区以古近系湖相沉积为特征,具有丰富的油气资源。然而,对烃源岩发育及其有机质富集机制的研究尚不充分,制约了页岩油勘探的开展。在柴达木西南地区古近系下干柴沟组上段主要烃源岩中发现了丰富的葡萄球菌化石,占总有机质含量的50%。孢粉相组合反映了较远的富氧沉积环境。富藻岩通常表现出石英长石、粘土和碳酸盐层状结构交替组成的独特层状结构,表明周期性的气候波动。Botryococcus主要保存在粗粒石英长石纹层中,可能反映了强降水条件和随后的高营养输入。最后,可能形成富氧、低盐度、富营养化的水体,有利于水藻的生长。富藻页岩具有较高的氢指数(IH)和总有机碳(TOC)值,具有较高的生烃潜力。因此,它们是含油气盆地优质烃源岩的重要标志层。同时,粗粒碎屑矿物纹层表现出良好的储集物性,可能为浮游藻类衍生的液态烃提供了充足的储集空间。因此,这些富含芽孢杆菌的烃源岩可能是页岩油勘探的重要目标。
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