Abstract
Organic petrology is an important tool used to characterize dispersed organic matter (DOM) in sediments and sedimentary rocks, and to assess its thermal maturity. This study was carried out on 33 cutting samples (Middle-Upper Jurassic) from the Ramalhal-1 well to characterize the particulate organic matter and to evaluate its thermal maturity. The samples were submitted to optical petrography analysis (reflected white and blue incident lights) and the mean random reflectance was measured. Microscopic observations revealed a low DOM content, characterized by the predominance of macerals of the inertinite group (including charcoal), followed by solid bitumen. Huminite/vitrinite is usually small in size and quantity. Liptinite macerals were also present, represented by sporinite, cutinite, liptodetrinite and rare bituminite. A type III-IV kerogen was defined for the Ramalhal-1 sequence. Huminite/vitrinite mean random reflectance varied between 0.38% and 0.75%, pointing to an immature-to-mature stage of the organic matter. Multi-populations of solid bitumen occurred in almost all the samples, filling voids and fractures in the inorganic materials (mainly carbonates). The bitumen populations were quite heterogeneous, concerning both the optical characteristics and distribution, displaying different thermal maturities. No relationship between vitrinite and bitumen reflectance was established, indicating that these bitumens were not generated in situ.
Highlights
Organic petrography is an important tool used to characterize the organic matter (OM) present in sedimentary sequences (e.g., [1,2,3])
Optical microscopy in reflected white light (RWL), fluorescence mode (FM) and transmitted white light has been demonstrated to be useful for assessing the type of organic matter associated with different paleoenvironments and for determining the thermal maturity reached by the organic matter during its geological evolution [1,3,4,5,6,7,8,9], among others
The organic matter is usually associated with the siliciclastic fraction, except for some bitumen populations that are associated with the carbonate fraction
Summary
Organic petrography is an important tool used to characterize the organic matter (OM) present in sedimentary sequences (e.g., [1,2,3]). Optical microscopy in reflected white light (RWL), fluorescence mode (FM) and transmitted white light has been demonstrated to be useful for assessing the type of organic matter associated with different paleoenvironments and for determining the thermal maturity reached by the organic matter during its geological evolution [1,3,4,5,6,7,8,9], among others. Petrographic and geochemical studies have been carried out to characterize dispersed organic matter (DOM) in sediments from the Lusitanian Basin (Portugal), from both well and outcrop samples (e.g., [6,7,8,10,11]), to determine the occurrence and preservation of OM and to define its palaeodepositional environment, as well as to identify its potential source rocks and assess the degree of thermal evolution. In the case of the Lusitania Basin, geochemical parameters can often be ambiguous, not allowing for a correct thermal maturity assessment (e.g., [6,12])
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