Organic geochemistry of Miocene source rocks from the Banat Depression (SE Pannonian Basin, Serbia)

ABSTRACTCarbonates of Cogollo Group (Apón, Lisure and Maraca formations) constitute the broader calcareous platform system originated during Aptian and Albian of Cretaceous in north-western South America, Maracaibo Basin, Venezuela. On the shallow shelf, a variety of calcareous sedimentary facies were deposited during marine transgressive and regressive cycles. Some of them developed porosity and constitute important hydrocarbon reservoirs. Due to some major marine transgressions, from early Aptian, the anoxic environment and characteristic facies of a pelagic environment moved from the outer slope and basin to the shallow shelf, during specific time intervals, favouring the sedimentation of organic matter-rich facies, which correspond to the oceanic anoxic events (OAEs) 1a and 1b. The source rock of Machiques Member (Apón Formation) was deposited during early Aptian OAE 1a (~ 120 Ma). The source rock of Piché Member, located at the top of the Apón Formation, was deposited during late Aptian OAE 1b (~ 113 Ma). Finally, La Luna Formation, from Cenomanian, that covers the OAE 2 (~ 93 Ma), represents the most important source rock in the Maracaibo Basin. In this way and based on sedimentological and organic geochemistry results from the determinations performed on 247 samples belonging to six cores in the Maracaibo Basin, we propose these two organic-rich levels, deposited on the shallow shelf of the Cogollo Group, as "effective source rocks", additional to La Luna Formation, with oil migration in relatively small distances to the porosity facies.

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Thermal Maturation Regime Revisited in the Dongying Depression, Bohai Bay Basin, East China

Geofluids ◽

10.1155/2021/6020850 ◽

2021 ◽

Vol 2021 ◽

pp. 1-17

Author(s):

Haiping Huang ◽

Hong Zhang ◽

Zheng Li ◽

Mei Liu

Keyword(s):

Organic Geochemistry ◽

Vitrinite Reflectance ◽

Source Rocks ◽

East China ◽

Burial Depth ◽

Bohai Bay ◽

Hydrocarbon Generation ◽

Bohai Bay Basin ◽

Dongying Depression ◽

Hydrocarbon Maturation

To the accurate reconstruction of the hydrocarbon generation history in the Dongying Depression, Bohai Bay Basin, East China, core samples of the Eocene Shahejie Formation from 3 shale oil boreholes were analyzed using organic petrology and organic geochemistry methods. The shales are enriched in organic matter with good to excellent hydrocarbon generation potential. The maturity indicated by measured vitrinite reflectance (%Ro) falls in the range of 0.5–0.9% and increases with burial depth in each well. Changes in biomarker and aromatic hydrocarbon isomer distributions and biomarker concentrations are also unequivocally correlated with the thermal maturity of the source rocks. Maturity/depth relationships for hopanes, steranes, and aromatic hydrocarbons, constructed from core data indicate different well locations, have different thermal regimes. A systematic variability of maturity with geographical position along the depression has been illustrated, which is a dependence on the distance to the Tanlu Fault. Higher thermal gradient at the southern side of the Dongying Depression results in the same maturity level at shallower depth compared to the northern side. The significant regional thermal regime change from south to north in the Dongying Depression may exert an important impact on the timing of hydrocarbon maturation and expulsion at different locations. Different exploration strategies should be employed accordingly.

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Organic geochemistry of crude oils and Cretaceous source rocks in the Iranian sector of the Persian Gulf: An oil–oil and oil–source rock correlation study

International Journal of Coal Geology ◽

10.1016/j.coal.2015.05.003 ◽

2015 ◽

Vol 146 ◽

pp. 118-144 ◽

Cited By ~ 27

Author(s):

Zahra Sadat Mashhadi ◽

Ahmad Reza Rabbani

Keyword(s):

Source Rock ◽

Persian Gulf ◽

Organic Geochemistry ◽

Correlation Study ◽

Source Rocks ◽

Crude Oils ◽

The Persian Gulf ◽

Oil Source

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Organic Geochemistry of Crude Oils and Source Rocks, Békés Basin

Basin Analysis in Petroleum Exploration ◽

10.1007/978-94-011-0954-3_8 ◽

1994 ◽

pp. 161-185 ◽

Cited By ~ 8

Author(s):

J. L. Clayton ◽

I. Koncz ◽

J. D. King ◽

E. Tatár

Keyword(s):

Organic Geochemistry ◽

Source Rocks ◽

Crude Oils

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Petrography and Organic Geochemistry Characterizations of Lower Paleozoic Organic-Rich Shale in the Northwestern Upper Yangtze Plate: Niutitang Formation and Longmaxi Formation, Dabashan Foreland Belt

Minerals ◽

10.3390/min8100439 ◽

2018 ◽

Vol 8 (10) ◽

pp. 439 ◽

Cited By ~ 1

Author(s):

Delu Li ◽

Rongxi Li ◽

Di Zhao ◽

Feng Xu

Keyword(s):

Gas Chromatography ◽

Organic Matter ◽

Organic Geochemistry ◽

Source Rocks ◽

Gas Chromatography Mass Spectrometry ◽

Mature Stage ◽

Type I ◽

Lower Paleozoic ◽

Longmaxi Formation ◽

Niutitang Formation

Measurements of total organic carbon, Rock-Eval pyrolysis, X-ray diffraction, scanning electron microscope, maceral examination, gas chromatography, and gas chromatography-mass spectrometry were conducted on the organic-rich shale of Lower Paleozoic Niutitang Formation and Longmaxi Formation in Dabashan foreland belt to discuss the organic matter characteristic, organic matter origin, redox condition, and salinity. The results indicate that the Niutiang Formation and Longmaxi Formation organic-rich shale are good and very good source rocks with Type I kerogen. Both of the shales have reached mature stage for generating gas. Biomarker analyses indicate that the organic matter origin of Niutitang Formation and Longmaxi Formation organic-rich shale are all derived from the lower bacteria and algae, and the organic matter are all suffered different biodegradation degrees. During Niutitang Formation and Longmaxi Formation period, the redox conditions are both anoxic with no stratification and the sedimentary water is normal marine water.

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A geochemical investigation into the resource potential of the Lawn Hill Platform, northern Australia

The APPEA Journal ◽

10.1071/aj19118 ◽

2020 ◽

Vol 60 (2) ◽

pp. 722

Author(s):

Amber J. M. Jarrett ◽

Adam E. H. Bailey ◽

Christopher J. Boreham ◽

Tehani Palu ◽

Lisa Hall ◽

...

Keyword(s):

Organic Geochemistry ◽

Source Rocks ◽

Geochemical Data ◽

Northern Australia ◽

Hydraulic Stimulation ◽

Petroleum Potential ◽

North West ◽

North Eastern ◽

Resource Exploration ◽

Geochemical Investigation

The Lawn Hill Platform (LHP) is a sedimentary province in north-eastern Northern Territory and north-western Queensland that hosts a significant Paleoproterozoic–Mesoproterozoic sequence, often referred to as 'the ‘Isa Superbasin’, and includes the overlying South Nicholson Group. Shale gas resources and base-metals mineralisation are known in north-west Queensland, but the larger basin is underexplored. The Australian Government’s Exploring for the Future (EFTF) 2016−2020 program aims to boost resource exploration in northern Australia. New precompetitive geochemical data obtained in this program includes source rock geochemistry, kerogen kinetics, bitumen reflectance, biomarker and δ13C n-alkanes for understanding the petroleum potential, organic geochemistry of source rocks and fluids, stratigraphic correlations and mineralogy to determine the brittleness of shales. All data and derived reports are accessible on the EFTF portal (www.eftf.ga.gov.au), providing a central location for informed decision making. The results in this study demonstrate fair to excellent source rocks in multiple supersequences that are brittle and favourable to hydraulic stimulation. A comparison to the greater McArthur Basin demonstrates, that although there are many similarities in bulk geochemistry, LHP mudstones are largely heterogeneous, reflecting local variations that may be inherited from variations in contributing biomass, microbial reworking, depositional environment, sediment input and paleoredox conditions.

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Source rocks and hydrocarbon generation in Slovenia (Mura Depression, Pannonian Basin)

Marine and Petroleum Geology ◽

10.1016/s0264-8172(00)00046-5 ◽

2001 ◽

Vol 18 (1) ◽

pp. 115-132 ◽

Cited By ~ 12

Author(s):

C Hasenhüttl ◽

M Kraljic ◽

R.F Sachsenhofer ◽

B Jelen ◽

R Rieger

Keyword(s):

Pannonian Basin ◽

Source Rocks ◽

Hydrocarbon Generation

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ORGANIC GEOCHEMISTRY OF CRUDE OILS AND UPPER CRETACEOUS SOURCE ROCKS FROM CONCESSION 11, WEST SIRTE BASIN, LIBYA

Journal of Petroleum Geology ◽

10.1111/jpg.12659 ◽

2016 ◽

Vol 39 (4) ◽

pp. 393-413 ◽

Cited By ~ 5

Author(s):

W. Sh. El Diasty ◽

S. Y. El Beialy ◽

K. E. Peters ◽

H. El Atfy ◽

A. M. Gheith ◽

...

Keyword(s):

Upper Cretaceous ◽

Organic Geochemistry ◽

Source Rocks ◽

Crude Oils ◽

Sirte Basin

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Hydrocarbon source rock potential of Miocene diatomaceous sequences in Szurdokpüspöki (Hungary) and Parisdorf/Limberg (Austria)

Austrian Journal of Earth Sciences ◽

10.17738/ajes.2020.0002 ◽

2020 ◽

Vol 113 (1) ◽

pp. 24-42

Author(s):

Emilia Tulan ◽

Michaela S. Radl ◽

Reinhard F. Sachsenhofer ◽

Gabor Tari ◽

Jakub Witkowski

Keyword(s):

Source Rock ◽

Pannonian Basin ◽

High Energy ◽

Depositional Environments ◽

Source Rocks ◽

Hydrocarbon Source Rock ◽

Petroleum Potential ◽

Northern Margin ◽

Geochemical Parameters ◽

Study Sites

AbstractDiatomaceous sediments are often prolific hydrocarbon source rocks. In the Paratethys area, diatomaceous rocks are widespread in the Oligo-Miocene strata. Diatomites from three locations, Szurdokpüspöki (Hungary) and Limberg and Parisdorf (Austria), were selected for this study, together with core materials from rocks underlying diatomites in the Limberg area. Bulk geochemical parameters (total organic carbon [TOC], carbonate and sulphur contents and hydrogen index [HI]) were determined for a total of 44 samples in order to study their petroleum potential. Additionally, 24 samples were prepared to investigate diatom assemblages.The middle Miocene diatomite from Szurdokpüspöki (Pannonian Basin) formed in a restricted basin near a volcanic silica source. The diatom-rich succession is separated by a rhyolitic tuff into a lower non-marine and an upper marine layer. An approximately 12-m thick interval in the lower part has been investigated. It contains carbonate-rich diatomaceous rocks with a fair to good oil potential (average TOC: 1.28% wt.; HI: 178 to 723 mg HC/g TOC) in its lower part and carbonate-free sediments without oil potential in its upper part (average TOC: 0.14% wt.). The composition of the well-preserved diatom flora supports a near-shore brackish environment. The studied succession is thermally immature. If mature, the carbonate-rich part of the succession may generate about 0.25 tons of hydrocarbons per square meter. The diatomaceous Limberg Member of the lower Miocene Zellerndorf Formation reflects upwelling along the northern margin of the Alpine-Carpathian Foreland. TOC contents are very low (average TOC: 0.13% wt.) and demonstrate that the Limberg Member is a very poor source rock. The same is true for the underlying and over-lying rocks of the Zellerndorf Formation (average TOC: 0.78% wt.). Diatom preservation was found to differ considerably between the study sites. The Szurdokpüspöki section is characterised by excellent diatom preservation, while the diatom valves from Parisdorf/Limberg are highly broken. One reason for this contrast could be the different depositional environments. Volcanic input is also likely to have contributed to the excellent diatom preservation in Szurdokpüspöki. In contrast, high-energy upwelling currents and wave action may have contributed to the poor diatom preservation in Parisdorf. The hydrocarbon potential of diatomaceous rocks of Oligocene (Chert Member; Western Carpathians) and Miocene ages (Groisenbach Member, Aflenz Basin; Kozakhurian sediments, Kaliakra canyon of the western Black Sea) has been studied previously. The comparison shows that diatomaceous rocks deposited in similar depositional settings may hold largely varying petroleum potential and that the petroleum potential is mainly controlled by local factors. For example, both the Kozakhurian sediments and the Limberg Member accumulated in upwelling environments but differ greatly in source rock potential. Moreover, the petroleum potential of the Szurdokpüspöki diatomite, the Chert Member and the Groisenbach Member differs greatly, although all units are deposited in silled basins.

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