About

Stephan Graham is the Welton Joseph and Maud L'Anphere Crook Professor of Applied Earth Sciences at Stanford University, with courtesy appointments in Geophysics and Energy Science Engineering. He holds a Ph.D. in Geology from Stanford University, obtained in 1976, along with an M.S. in Geology from Stanford (1974) and a B.A. in Geology from Indiana University (1972). His research focuses on applied earth sciences, particularly within the context of basin processes and subsurface modeling. As a faculty member in the Department of Earth and Planetary Sciences, he contributes to advancing understanding in these areas through his academic and research activities.

Research topics

• Paleontology
• Oceanography
• Geology
• Climatology
• Petrology
• Earth science

Selected publications

• RETRACTED

  Terrebonne Basin, Gulf of Mexico gas hydrate resource evaluation and 3-D modeling of basin-scale sedimentation, salt tectonics, and hydrate system evolution since the early Miocene

  Marine and Petroleum Geology · 2025-02-11 · 6 citations

  articleSenior author
  PublisherDOI

• Stratigraphic architecture and controls on a convergent margin deepwater progradational system: Insights from the Ngamring Formation, Xigaze forearc basin, southern Tibet

  Geological Society of America Bulletin · 2025-12-18

  article

  Abstract Submarine progradational systems are widespread along active margins, and their deposits contain valuable insights into perturbations within their upstream systems and long-term geological evolution. However, decoding these records is often challenging due to the scarcity of well-exhumed/preserved and well age-controlled deepwater strata. This study integrates zircon U-Pb geochronology combined with detailed stratigraphy to illustrate the stratigraphic architectural evolution and drivers on the deepwater progradational strata, totaling 3.0 km in thickness, in the Xigaze forearc basin in southern Tibet. The deepwater system preserves an upward-coarsening succession, which prograded from the mid-lower fan lobe deposits, to the base of slope to proximal basin floor, to the middle- to upper-fan channel-levee deposits. Coarse-grained channel deposits are overlain by >100 m of mudstone and siltstone, which we interpret as an abandonment phase deposit. Depositional ages derived from three tuffs and maximum depositional ages from five sandstones range from 99.0 ± 0.59 Ma to 93.8 ± 0.41 Ma. Increased sediment supply induced by a Cretaceous magmatic flare-up (peak at 95 Ma), tectonic contraction by the activity of the Gangdese Retroarc Thrust Belt (beginning in the mid-Cretaceous), and expansion of drainage configuration facilitated the systematic upward change in facies architecture and depositional setting. However, a dramatic sea-level rise during the mid-Cretaceous and/or a deposystem shift interrupted these progradational processes and halted the delivery of coarse sediment into the basin. Our study highlights the linkage between detailed stratigraphic architecture and chrono-stratigraphy that provides a useful analogue for comprehending how Earth’s deepwater systems respond to allogenic controls in ancient active margin settings. Locally, this study enhances our understanding of the tectonic-sedimentary evolution of the arc-basin system that occurred along the margin of southern Tibet before the collision between the Indian and Asian blocks. Broadly, this contribution also can be employed to aid interpretations of geological processes in other regions or deepwater systems where constraining factors are limited.

  PublisherDOI

• 40 MILLION YEARS OF MISSING LOWER CRETACEOUS GREAT VALLEY FOREARC STRATIGRAPHY WITHIN THE SAN JOAQUIN BASIN: FOREARC BASIN EVOLUTION AND THE NORTH AMERICA CORDILLERA MARGIN

  Abstracts with programs - Geological Society of America · 2024-01-01

  articleSenior author
  PublisherDOI

• Xialiao basin arm of the North China basin: a Paleogene rift basin modified by strike-slip deformation

  Elsevier eBooks · 2024-01-01

  book-chapterSenior author
  PublisherDOI

• Detrital isotopic record of a retreating accretionary orogen: An example from the Patagonian Andes

  Geology · 2024-02-28 · 8 citations

  articleOpen accessSenior author

  Abstract U-Pb zircon geochronology and isotopic records have played an influential role in our understanding of convergent margin dynamics. Orogenic cyclicity models link tectonic regimes with magmatic isotopic signatures in advancing orogens, relating compressional regimes with evolved signatures and extension with juvenile signatures; however, such frameworks may not apply for retreating orogens, which commonly produce substantial crustal heterogeneities during backarc rifting and ocean spreading. We explore the Mesozoic to Cenozoic Patagonian Andes tectonic evolution, combining U-Pb zircon ages, bulk rock εNd, and new detrital zircon εHf from the retroarc basin to understand the associated magmatic arc evolution during retreat and advance of the margin. Our results reveal a protracted phase of isotopically juvenile magmatism between 150 and 80 Ma, which began during backarc extension and persisted long after the margin switched to a contractional regime. We propose that the prolonged juvenile isotopic trend started mainly due to trenchward migration of the arc during backarc extension (150–120 Ma) and persisted due to partial melting of underthrusted juvenile attenuated and oceanic crust during backarc basin closure (120–80 Ma). This interpretation implies that tectonic stress alone does not predict isotopic trends, and factors like assimilation or the composition of underthrusted crust are important controls on magmatic isotopic composition, especially in retreating and transitional orogens.

  PublisherOA PDFDOI

• The Songliao basin, China

  Elsevier eBooks · 2024-01-01 · 3 citations

  book-chapterSenior author
  PublisherDOI

• List of contributors

  Elsevier eBooks · 2024-01-01

  book-chapterOpen access
  PublisherDOI

• Global Eocene-Oligocene unconformity in clastic sedimentary basins

  Earth-Science Reviews · 2024-10-07 · 16 citations

  articleSenior author
  PublisherDOI

• A HIGH PRECISION MARINE RECORD OF ENVIRONMENTAL CHANGE ACROSS THE JURASSIC-CRETACEOUS BOUNDARY, SOUTHERN PATAGONIA

  Abstracts with programs - Geological Society of America · 2024-01-01

  articleSenior author
  PublisherDOI

• Sedimentary basins of the late Mesozoic extensional domain of China and Mongolia

  Elsevier eBooks · 2024-01-01 · 2 citations

  book-chapter
  PublisherDOI

Recent grants

• Evaluating the Detrital Record of Continental Collision in the Songpan-Ganzi Complex, Central China, the World's Largest Pre-Cenozoic Turbidite System

  NSF · $284k · 2004–2007

• Collaborative Research: Initiation and Long-Term Slip History of the Altyn Tagh Fault System, Northern Tibetan Plateau, NW China: A Tertiary Basin Piercing Point Study

  NSF · $165k · 2002–2004

Frequent coauthors

• C. Page Chamberlain

  Stanford University

  20 shared

• Glenn R. Sharman

  University of Arkansas at Fayetteville

  20 shared

• Brian W. Romans

  Virginia Tech

  19 shared

• Alan R. Carroll

  19 shared

• Andreas Mulch

  Goethe University Frankfurt

  17 shared

• Theresa Schwartz

  17 shared

• Bradley D. Ritts

  17 shared

• Matthew A. Malkowski

  The University of Texas at Austin

  16 shared

Labs

• Stanford Geologic Hydrogen Industrial Affiliates ProgramPI

  Not provided in the HTML snippet.