| 243 - 271 |
Geochemically distinct oil families in the onshore and offshore Santa Maria basins, California
Peters KE, Lillis PG, Lorenson TD, Zumberge JE |
| 273 - 301 |
Breakthrough pressure and permeability in partially water-saturated shales using methane-carbon dioxide gas mixtures: An experimental study of Carboniferous shales from the eastern Qaidam Basin, China
Zhang C, Yu QC |
| 303 - 343 |
Regional transect across the western Caribbean Sea based on integration of geologic, seismic reflection, gravity, and magnetic data
Sanchez J, Mann P, Carvajal-Arenas LC, Bernal-Olaya R |
| 345 - 367 |
Mechanism of hydrocarbon accumulation and enrichment of tuffaceous tight oil with separate reservoir and source rock: A case study of tuff reservoir from the Permian Tiaohu Formation in the Santanghu Basin, northwest China
Ma J, Huang ZL, Li TJ |
| 369 - 403 |
Origin of helium and nitrogen in the Panhandle-Hugoton field of Texas, Oklahoma, and Kansas, United States
Brown A |
| 405 - 432 |
Lithofacies and depositional setting of a highly prospective lacustrine shale oil succession from the Upper Cretaceous Qingshankou Formation in the Gulong sag, northern Songliao Basin, northeast China
Liu B, Wang HL, Fu XF, Bai YF, Bai LH, Jia MC, He B |
| 469 - 504 |
Anatomy of a lacustrine stratigraphic sequence within the fourth member of the Eocene Shahejie Formation along the steep margin of the Dongying depression, eastern China
Li ZX, Yang W, Wang YS, Zhang LQ, Luo HM, Liu SH, Zhang LK, Luo XR |
| 505 - 510 |
Climatic and tectonic controls of lacustrine hyperpycnite origination in the Late Triassic Ordos Basin, central China: Implications for unconventional petroleum development: Discussion
Shanmugam G |
| 511 - 514 |
Climatic and tectonic controls of lacustrine hyperpycnite origination in the Late Triassic Ordos Basin, central China: Implications for unconventional petroleum development: Reply
Yang RC, Jin ZJ, van Loon AJ, Han ZZ, Fan AP |
