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Surlyk, F., J. Gjelberg, and N. Noe-Nygaard, 2007, The Upper Jurassic Hareelv Formation of East Greenland: A giant sedimentary injection complex, in A. Hurst and J. Cartwright, eds., Sand injectites: Implications for hydrocarbon exploration and production: AAPG Memoir 87, p. 141-149.

DOI:10.1306/1209858M871101

Copyright copy2007 by The American Association of Petroleum Geologists.

The Upper Jurassic Hareelv Formation of East Greenland: A Giant Sedimentary Injection Complex

Finn Surlyk,1 John Gjelberg,2 Nanna Noe-Nygaard3

1Geological Institute, University of Copenhagen, Copenhagen, Denmark
2Norsk Hydro Research Center, Bergen, Norway
3Geological Institute, University of Copenhagen, Copenhagen, Denmark

ACKNOWLEDGMENTS

This study is supported by Hydro Research Center and the Danish Natural Science Research Council. We thank Harald Brunstad, Dag Erik Nilsen, Paringl Haremo, Erling Varinggnes, and Stefan Piasecki for discussion and cooperation in the field, Stuart D. Harker and Andrew Hurst for constructive comments and suggestions to an early manuscript version, Andrew Hurst for patience and assistance in the final stages of manuscript completion, and Christian Hagen for the preparation of illustrations.

ABSTRACT

The Upper Jurassic Hareelv Formation in Jameson Previous HitLandNext Hit, East Greenland is one of the world's finest outcrop examples of a giant sand-injection complex. The contrast between the black, organic-rich hemipelagic mudstones and the injected light yellow sandstones is striking and allows easy recognition of geometries both in close-up and from a distance. The formation is 200–400 m (660–1310 ft) thick, and in the lower part (Katedralen Member), the sandstone/mudstone ratio is roughly 1:1, increasing to about 9:1 in the upper part (Sjaeligllandselv Member).

All sands in the upper Oxfordian–Volgian Katedralen Member have undergone postburial remobilization and injection into the surrounding mudstones, and virtually all primary sedimentary structures have been obliterated. It is thus not possible to provide detailed interpretations of the primary depositional processes. On the basis of sand-body Previous HitgeometryNext Hit and comparison with the undisturbed underlying Olympen and overlying Raukelv formations, the depositional system is interpreted as comprising slope gullies and laterally extensive base-of-slope lobes. The sandstones occur as thick, virtually structureless bodies, which may be laterally extensive or form mounded or pod-shaped masses. Smaller dikes and sills are ubiquitous, and their geometries range from orthogonal or polygonal to extremely irregular, reflecting injection into mudstones with various degrees of consolidation. Mudstone slabs and fragments of all sizes occur in the sandstones and may easily be mistaken for clasts transported in concentrated gravity flows. They are formed, however, by excavation and rip-down of the mudstone during forceful injection of fluidized sand.

Vertical or lateral organizational trends of sandstone bodies are not observed, and no clear indications exist if intrusion of dikes and sills were upward, downward, or lateral with respect to the larger sandstone bodies. The mudstones above large convex-upward sandstone bodies seem, however, to be relatively undisturbed by dikes and sills. Close inspection of some thick, laterally extensive sandstone bodies show that they contain subhorizontal mudstone leaves or layers, indicating long-distance lateral injection and splitting of the injected mudstone package. The thick convex-upward sandstone bodies were, however, clearly intruded vertically upward into the mudstones. No evidence is present for sand extrusion on the sea floor, and remobilization and injection clearly were postburial, probably under a cover of tens to perhaps hundreds of meters. Several generations of injection can be demonstrated based on crosscutting relationships of dikes and sills and the presence of both straight and strongly ptygmatically folded dikes at the same levels. Similar injections are unknown from both older and younger formations in Jameson Previous HitLandTop.

The Hareelv Formation was deposited during the climax of the most important Mesozoic rift event in East Greenland, and the pervasive remobilization of all sands in the formation is interpreted as caused mainly by cyclic loading triggered by seismic shocks. Additional factors may have included slope shear stress, buildup of pore pressure caused by sediment loading, upward movement of pore waters expelled from the compacting muds, and possibly biogenic and thermogenic gas. The well-exposed Hareelv Formation is an excellent analog for subsurface hydrocarbon reservoirs, which have been modified by remobilization and injection of sands. It provides one of the best field examples known, illustrating the degree to which a sediment can be altered and all primary features destroyed by remobilization, fluidization, and injection.

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