Abstract
The Grajcarek Unit of the Pieniny Klippen Belt (PKB), at the boundary between the Central (Inner) and Outer Carpathians, resulted from the convergence of the ALCAPA (the Alps–Carpathians–Pannonia) block and European plate. The strongly deformed slices of the Grajcarek Unit consist of Jurassic–Cretaceous sedimentary rocks associated with Late Cretaceous–Middle Palaeocene synorogenic wild-flysch, and sedimentary breccias with olistoliths. Maximum burial temperatures and burial depths were estimated based on vitrinite reflectance data. The vitrinite reflectance values were wide scattered through the Grajcarek sedimentary succession, especially in the flysch formations. This is attributed mainly to the depositional effects that affected the vitrinite evolution. The determined maximum burial temperatures were interpreted due to the regional compression controlled by tectonic burial coeval with thrusting and strike-slip faulting. The regional vitrinite reflectance variations might estimate cumulative displacement around the NNW–SSE and oriented the strike-slip Dunajec fault, which is a continuation of the deep fracture Kraków–Myszków fault zone.
Highlights
The useful phenomena of vitrinite reflectance (VR) as the main parameter for maturity determination can be attributed to several reasons: (a) vitrinite or vitrinite-like macerals are present in almost organic-rich sedimentary or metasedimentary rocks; (b) vitrinite exhibits a wide temporal and spatial distribution; (c) VR measurements are relatively quick and simple to obtain
Organic particles represent DOM, a mixture of heterogenous organic contents. Characteristics of this mixture depends on origin, type, and nature of organic matter as well as early diagenesis and thermal maturity that follow the sediment burial (e.g., [82,83,84])
Organic matter assemblages differ among the formations
Summary
The useful phenomena of vitrinite reflectance (VR) as the main parameter for maturity determination can be attributed to several reasons: (a) vitrinite or vitrinite-like macerals are present in almost organic-rich sedimentary or metasedimentary rocks; (b) vitrinite exhibits a wide temporal and spatial distribution; (c) VR measurements are relatively quick and simple to obtain. Vitrinite reflectance is commonly used to identify and analyse various geological phenomena (faulting, thrusting, uplift and erosion, intrusion) to decipher thermal history in sedimentary basins [2,3,4,5,6,7,8,9,10,11,12,13,14]
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