The Qinghai-Tibet Plateau is located in the east section of the Tethys region, which produces great amounts of oil and gas whose reserves are one of the most abundant in the world. The plateau includes two exploration areas: a Mesozoic marine basin and a Cenozoic continental facies. At present, the Qiangtang Basin in the Qinghai-Tibet Plateau is believed to be the marine basin with the most extensive oil and gas exploration prospects in the world; however, the thrust-nappe structure movement in the Cretaceous-Cenozoic Period caused massive surface exposure which damaged the oil reservoirs. In this paper, the paleo-oil reservoir exposure area was used as a window to reveal the massively exposed underground distribution of oil and gas reservoirs in the Southern Qiangtang Depression, and the reservoirs were analyzed in detail. The composition of biomarkers and the characteristics of carbon isotopes of crude oil in the reservoirs were identified via comparison of oil source rocks. Our findings indicated that the oil shale series source rock from the Biluocuo region of the Qiangtang Basin represents the main source rocks of the paleo-oil reservoirs.
1. Zhao, Z. Z., Qin, J. Z., Xu, H. X. Hydrocarbon Generation of the Marine Source Rocks in the Tibet Plateau. Science Press, Beijing, 2001, 42–74 (in Chinese).
2. Gao, R. Q., Zhao, Z. Z. The Frontier Petroleum Exploration in China. Volume 6: Petroleum Geology of Qinghai-Tibet Plateau. Petroleum Industry Press, Beijing, 2001 (in Chinese).
3. Wang, C. S., Chang, E. Z., Zhang, S. N. Potential oil- and gas-bearing basins of the Qinghai-Tibetan Plateau, China. International Geology Review, 1997, 39(10), 876–890.
https://doi.org/10.1080/00206819709465307
4. Wang, J., Ding, J., Wang, C. S. Discussion on the Investigation and Evaluation of Strategic Petroleum Area in Qinghai-Tibet. Geological Publishing House, Beijing, 2004, 227–270 (in Chinese).
5. Wu, Z. H., Hu, D. G., Ye, P. S., Zhao, X., Liu, Q. S. Thrusting of the North Lhasa Block in the Tibetan Plateau. Acta Geologica Sinica, 2004, 78(1), 246–259.
6. Wu, Z. H., Barosh, P. J., Zhao, X., Wu, Z. H., Hu, D. G., Liu, Q. S. Miocene tectonic evolution from dextral-slip thrusting to extension in the Nyainqentanglha region of the Tibetan Plateau. Acta Geologica Sinica, 2007, 81(3), 365–384.
https://doi.org/10.1111/j.1755-6724.2007.tb00961.x
7. Wu, Z. H., Ye, P. S., Barosh, P. J., Hu, D. G., Lu, L. Early Cenozoic multiple thrust in the Tibetan Plateau. Journal of Geological Research, 2013, Article ID 784361, 1–12, doi:10.1155/2013/784361.
https://doi.org/10.1155/2013/784361
8. Wu, Z. H., Ye, P. S., Barosh, P. J., Hu, D. G., Lu, L., Zhang, Y. L. Early Cenozoic mega thrusting in the Qiangtang block of the Northern Tibetan Plateau. Acta Geologica Sinica, 2012, 86(4), 799–809.
https://doi.org/10.1111/j.1755-6724.2012.00707.x
9. Wu, Z. H., Ye, P. S., Barosh, P. J., Hu, D. G., Zhao, W. J., Wu, Z. H. Late Oligocene-Early Miocene thrusting in southern East Kunlun Mountains, northern Tibetan Plateau. J. Earth Sci., 2009, 20(2), 381–390.
https://doi.org/10.1007/s12583-009-0031-2
10. Li, Y. L., Wang, C. S., Yi, H. S., Liu, Z. F., Li, Y. Cenozoic thrust system and uplifting of the Tanggula Mountain, Northern Tibet. Acta Geologica Sinica, 2006, 80(8), 1118–1130 (in Chinese with English abstract).
11. Yin, A., Harrison, T. M. Geologic evolution of the Himalayan-Tibetan orogen. Annu. Rev. Earth Pl. Sci., 2000, 28, 211–280.
https://doi.org/10.1146/annurev.earth.28.1.211
12. Ji, C. J. Biomarker Characteristics and Oil-Source Correlation Research of the Reservoirs in Southern Qiangtang Depression. Chengdu University of Technology, Chengdu, 2015 (in Chinese with English abstract).
13. Guan, D. S., Niu, J. Y., Guo, L. N. Unconventional Oil and Gas Geology of China. Petroleum Industry Press, Beijing, 1985, 207–214 (in Chinese).
14. Kang, Y. Z., Wang, Z. X., Zhou, X. G. Tectonic System Control Oil Effect Research of the Qaidam Basin. Geological Publishing House, Beijing, 2011 (in Chinese).
15. Ji, C. J., Yi, H. S., Chen, Z. R., Xia, G. Q., Mao, L. L., Li, Q. L., Hu, H. W. Crude oil types of the well Qiang D-2 in the Qiangtang Basin, Tibet and its exploration significance. Acta Petrolei Sinica, 2013, 34(6), 1070–1076 (in Chinese with English abstract).
16. Ji, C. J., Yi, H. S., Xia, G. Q., Xie, T., Yin, Q., Li, Q. L., Jin, F. The characteristics and exploration significance of oil reservoir in the Qiangtang Basin. Geological Science and Technology Information, 2016, 35(1), 74–79 (in Chinese with English abstract).
17. Yi, H. S., Chen, L., Jenkyns, H. C., Da, X., Xia, M., Xu, G., Ji, C. J. The Early Jurassic oil shales in the Qiangtang Basin, Northern Tibet: biomarkers and Toarcian oceanic anoxic events. Oil Shale, 2013, 30(3), 441–455.
https://doi.org/10.3176/oil.2013.3.05
18. Yi, H. S., Lin, J. H., Zhao, B., Li, Y., Shi, H., Zhu, L. D. New biostratigraphic data of the Qiangtang area in the Northern Tibetan Plateau. Geological Review, 2003, 49, 59–65 (in Chinese with English abstract).
19. Xia, G. Q., Ji, C. J., Chen, L., Yi, H. S. Biomarkers of the Lower Jurassic black shale in the Shuanghu area of the Qiangtang Basin, northern Tibet and their geological significance. Oil Shale, 2017, 34(1), 55–69.
https://doi.org/10.3176/oil.2017.1.04
20. Xia, G. Q., Ji, C. J., Yang, W., Wu, C. H., Yi, H. S., Zhang, S., Li, Q. L., Li, G. J. Fluid inclusions characteristics and hydrocarbon charging history of oil reservoir belt in the Mid-Jurassic Buqu Formation, Southern Qingtang depression. Acta Petrolei Sinica, 2016, 37(10), 1247–1255 (in Chinese with English abstract).
21. Hughes, W. B., Holba, A. G., Dzou, L. I. P. The ratios of dibenzothiophene to phenanthrene and pristane to phytane as indicators of depositional environment and lithology of petroleum source rocks. Geochim. Cosmochim. Ac., 1995, 59, 3581–3598.
https://doi.org/10.1016/0016-7037(95)00225-O
22. MacKenzie, A. S., Lamb, N. A., Maxwell, J. R. Steroid hydrocarbons and the thermal history of sediments. Nature, 1982, 295, 223–226.
https://doi.org/10.1038/295223a0
23. Peters, K. E., Moldowan, J. M. The Biomarker Guide: Interpreting Molecular Fossils in Petroleum and Ancient Sediments. Englewood Cliffs, New Jersey, 1993.
24. Peters, K. E., Walters, C. C., Moldowan, J. M. The Biomarker Guide, Volume 2: Biomarkers and Isotopes in Petroleum Exploration and Earth History. Cambridge University Press, Cambridge, 2005.
25. Quijano, M. L., Castro, J. M., Pancost, R. D., de Gea, G. A., Najarro, M., Aguado, R., Rosales, I., Martin-Chivelet, J. Organic geochemistry, stable isotopes, and facies analysis of the Early Aptian OAE-New records from Spain (Western Tethys). Palaeogeogr. Palaeocl. Palaeoecol, 2012, 365–366, 276–293.
https://doi.org/10.1016/j.palaeo.2012.09.033
26. Johnson, C. L., Greene, T. J., Zinniker, D. A., Moldawan, J. M., Hendrix, M. S., Carroll, A. R. Geochemical characteristics and correlation of oil and nonmarine source rocks from Mongolia. AAPG Bull., 2003, 87(5), 817–846.
https://doi.org/10.1306/12170201073
27. Picha, F. J., Peters, K. E. Biomarker oil-to-source rock correlation in the Western Carpathians and their foreland, Czech Republic. Petrol. Geosci., 1998, 4(4), 289–302.
https://doi.org/10.1144/petgeo.4.4.289
28. Hao, F., Zhou, X. H., Zhu, Y. M., Yang, Y. Y. Mechanisms for oil depletion and enrichment on the Shijiutuo uplift, Bohai Bay Basin, China. AAPG Bull., 2009, 93(8), 1015–1037.
https://doi.org/10.1306/04140908156
29. Zhang, S., Gong, Z., Liang, D., Wu, G., Wang, J., Song, F., Wang, P., Wang, H., He, Z. Geochemistry of Petroleum Systems in the Eastern Pearl River Mouth Basin–I: Oil Family Classification, Oil-source Correlation and Mixed Oil Analysis. Acta Sedimentologica Sinica, 2004, 22(S), 15-26.
30. Volkman, J. K. Sterols and other triterpenoids: source specificity and evolution of biosynthetic pathways. Org. Geochem., 2005, 36(2), 139–159.https://doi.org/10.1016/j.orggeochem.2004.06.013
