AAPG Bulletin, V. 83 (1999), No. 6 (June 1999), P. 972-989.

Sequence Stratigraphy, Facies, and Sea Level Change of the Hauterivian Productive Complex, Priobskoe Oil Field (West Siberia)¹

O. V. Pinous,² Y. N. Karogodin,³ S. V. Ershov,³ and D. L. Sahagian²
 

©Copyright 1999.  The American Association of Petroleum Geologists.  All Rights Reserved

¹Manuscript received January 5, 1998; revised manuscript received October 30, 1998; final acceptance November 5, 1998.
²CCRC, Institute for the Study of Earth, Oceans and Space, University of New Hampshire, Durham, New Hampshire 03824; e-mail: [email protected]
³Institute of Oil and Gas Geology, Russian Academy of Sciences, Novosibirsk 630090, Russia.

The manuscript substantially benefited from the detailed review of Chris Zdanowicz. Thanks go to Victor Zakharov, Anna Fursova, and Andrei Belopolsky. We are grateful to the people from Amoco Eurasia Group, including P. Manoogian, D. Valasek, and F. Overdall. This work was partially supported by NSF (EAR9614752) and an AAPG Student Grant. 
 

ABSTRACT

The productive complex of the Priobskoe field formed during the Hauterivian in the central part of the West Siberian basin as part of the Neocomian (Early Cretaceous) progradational complex. Its depositional setting was a shelf-break margin with well-developed clinoform units and a 1-2° slope gradient. Two depositional sequences have been identified and consist of distinct systems tracts. The lowstand systems tract of the lower sequence (AC12.2-4) formed as a result of rapid high-amplitude relative sea level fall, and is clearly differentiated into lowstand fan and lowstand prograding wedge deposits. Sea level fall of lower amplitude (and rate) led to deposition of a lowstand systems tract in the upper sequence (AC10.1-2) in which no lowstand fan unit was deposited. A thin transgressive systems tract of the lower sequence (AC11.0) formed during a short-term sea level rise. In contrast, prolonged high-amplitude sea level rise led to deposition of a thick transgressive deposit in the upper sequence (AC10.0-AC8). Deposition of the sandiest units is related to shelf (shoal-water) deltas and shelf-edge deltas on the shelf, and to submarine fans in basinal portions. Deposition of shelf-edge deltas was accompanied by abundant gravity-driven processes and formation of shingled turbidites, during which the basin margin significantly prograded and infilled accommodation space. In many cases, sediment supply into the deep-marine systems of Priobskoe was provided from multiple feeder entry points that led to coalescence of individual submarine fans into thick submarine ramps. Because it is based on copious drilling and seismic data, the sequence stratigraphic framework developed for the Priobskoe field may serve as a useful analog model for exploration and prospect generation in Hauterivian clinoforms, as well as in the entire West Siberian Neocomian.

There is good correspondence between the relative sea level change interpreted for Priobskoe to the quantified eustatic curve (QEC) generated from Russian platform stratigraphy. This implies that eustasy played an important role in controlling sedimentation in the Priobskoe field. In addition, it supports the validity for the Hauterivian interval of the QEC.