Sill-intrusion, flood basalt emplacement and deep crustal structure of the Scoresby Sund region, East Greenland

H. C. Larsen; C. Marcussen

doi:10.1144/GSL.SP.1992.068.01.23

Abstract

The late Palaeozoic-Mesozoic Jameson Land basin in East Greenland was situated during early Tertiary break-up 300–400 km north of a presumed plume centre and 100–200 km landward of the initial line of North East Atlantic opening. The basin continues southward below Scoresby Sund fiord and the Scoresby Sund plateau basalts south of the fiord. By combining surface mapping with marine reflection and refraction seismics from Scoresby Sund and deep (6–12s) reflection seismics from the exposed part of the basin, it is possible to construct a composite image of the entire crustal structure in this region from the details of basalt stratigraphy at the top, through the basin fill, the foundation of the basin, and into the uppermost mantle. At the basin centre there is a very thin crystalline crust (6–8 km?) below as much as 16–18 km of basin fill. Virtually all crustal extension took place prior to mid-Permian time, and the post-rift Upper Permian to Cretaceous section contributes to only one third or less of the total thickness of the succession. During Tertiary break-up the basin was intruded by basaltic sills and dykes, and basaltic flood basalts flowed over the basin with an apparently decreasing thickness to the north. The sills are mainly exposed along the basin margins as rather thin (10–15 m) layers, but apparently increase in intensity and thickness at depth and towards the basin centre. It seems that magmas were intruded as sills up to 300 m thick in the deep (10–15 km) central parts of the basin, from where they ascended towards the basin margins and to much younger stratigraphic levels. Their geometry and possible volume make them potential candidates as mid-crustal magma chambers and crustal magma pathways for the flood basalts which show low-pressure fractionation. However, extension surface geological data and deep crustal reflection seismic data show no faulting or crustal extension associated with this intense break-up volcanism. In Scoresby Sund there is a general rather conformable relationship between the basin stratigraphy and the gross stratigraphy of the flood basalts, suggesting limited or no initial uplift prior to flood basalt volcanism. The present-day high elevation of the basalts is considered part of large regional margin uplift post-dating N Atlantic break-up by 20 Ma or more. The apparent guidance exerted by the basin on the break-up magmatic activity without renewed rifting of the basin itself, the apparent lack of a broad initial uplift during break-up, and the late regional margin uplift, all seem at odds with several current plume models.

References

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[1] Andersen M. S.,
Larsen H. C.,
Risum J. B.,
Thorning L.
(1981) Geophysical investigations offshore East Greenland—Project NAD. Rapport, Grønlands Geologiske Undersøgelse 105:56–60, 1980. Report of Activities.
OpenUrl

[2] Andersen M. S.,

[3] Larsen H. C.,

[4] Risum J. B.,

[5] Thorning L.

[6] Batzle M.,
Landisman C.
(1988) Greenland sample velocities, Unpublished exploration report by ARCO International.

[7] Batzle M.,

[8] Landisman C.

[9] Bergman S. C.,
Henk F. H. B.
(1990) K-Ar and fission track thermo chronology data on sedimentary and igneous rocks in Jameson Land, East Greenland: Importance of Eocene magmatism on the thermal evolution of the basin, Unpublished exploration report by ARCO International.

[10] Bergman S. C.,

[11] Henk F. H. B.

[12] Brooks C. K.
(1979) Geomorphological observations at Kangerdluggssuaq, East Greenland 1:1–21. Meddelelser on Grønland. Geoscience.
OpenUrl

[13] Brooks C. K.

[14] Christiansen F. G.,
Larsen H. C.,
Marcussen C.,
Hansen K.,
Krabbe H.,
Larsen L. M.,
Piasecki S.,
Stemmerik L.,
Watt W. S.
(1992) Uplift study of the Jameson Land basin, East Greenland. Norsk Geologisk Tidsskrift 72:291–294.
OpenUrl Web of Science

[15] Christiansen F. G.,

[16] Larsen H. C.,

[17] Marcussen C.,

[18] Hansen K.,

[19] Krabbe H.,

[20] Larsen L. M.,

[21] Piasecki S.,

[22] Stemmerik L.,

[23] Watt W. S.

[24] Coe K.
(1971) Faulting in the western part of Liverpool Land, East Greenland. Bulletin Geological Society of Denmark 20:260–264.
OpenUrl

[25] Coe K.

[26] Cox K. G.
(1989) The role of mantle plumes in the development of continental drainage patterns. Nature 342:873–877.
OpenUrl CrossRef Web of Science

[27] Cox K. G.

[28] Duncan R. A.,
Richards M. A.
(1991) Hotspots, mantle plumes, flood basalts and true polar wander. Reviews of Geophysics 29:31–50.
OpenUrl CrossRef Web of Science

[29] Duncan R. A.,

[30] Richards M. A.

[31] Eldholm O.,
Thiede J.,
Taylor E.
, eds (1989) in Proceedings, Scientific results, Leg (College Stations, Texas), (Ocean Drilling Program), 104.

[32] Eldholm O.,

[33] Thiede J.,

[34] Taylor E.

[35] Francis E. H.
(1982) Magma and sediment—I. Emplacement mechanism of late Carboniferous tholeiite sills in northern Britain. Journal of the Geological Society, London 139:1–20.
OpenUrl Abstract/FREE Full Text

[36] Francis E. H.

[37] Forsberg R.
(1986) Gravity measurements in Jameson Land and neighbouring parts of East Greenland. Meddelelser om Grønland. Geoscience 15:1–21.
OpenUrl

[38] Forsberg R.

[39] Fuller M.
(1986) Paleomagnetism of samples from Greenland, Unpublished exploration report by ARCO International.

[40] Fuller M.

[41] Gibb F. G. F.,
Kanaris-Sotiriou R.
(1988) in Early Tertiary Volcanism and the Opening of the NE Atlantic, The geochemistry and origin of the Faeroe-Shetland sill complex, Geological Society, London, Special Publication, eds Morton A. C., Parson L. M. 39, pp 241–252.
OpenUrl CrossRef

[42] Gibb F. G. F.,

[43] Kanaris-Sotiriou R.

[44] Gilchrist A. R.,
Summerfield M. A.
(1990) Differential denudation and flexural isostasy in formation of rifted-margin upwarps. Nature 346:739–742.
OpenUrl CrossRef

[45] Gilchrist A. R.,

[46] Summerfield M. A.

[47] Griffiths R. W.,
Campbell I. H.
(1990) Stirring and structure in mantle starting plumes. Earth and Planetary Science Letters 99:66–78.
OpenUrl CrossRef Web of Science

[48] Griffiths R. W.,

[49] Campbell I. H.

[50] Haller J.
(1970) Tectonic map of East Greenland (1:500,000). An account of tectonism, plutonism, and volcanism in East Greenland, Meddelelser om Grønland, 171, p 5.
OpenUrl

[51] Haller J.

[52] Harland W. B.,
Armstrong R. L.,
Cox A. V.,
Craig L. E.,
Smith A. G.,
Smith D. G.
(1989) A geological time scale 1989 (Cambridge University Press, Cambridge).

[53] Harland W. B.,

[54] Armstrong R. L.,

[55] Cox A. V.,

[56] Craig L. E.,

[57] Smith A. G.,

[58] Smith D. G.

[59] Hepper J.
(1991) Refraktionsseismische Untersuchungen im Scoresby Sund, Ostgrönland. Thesis (University of Kiel).

[60] Hepper J.

[61] Henriksen N.
(1986) Descriptive text to 1:500 000 sheet 12, Scoresby Sund (Grønlands Geologiske Undersøgelse, Copenhagen).

[62] Henriksen N.

[63] Hill R. I.
(1991) Starting plumes and continental break-up. Earth and Planetary Science Letters 104:398–416.
OpenUrl CrossRef Web of Science

[64] Hill R. I.

[65] Higgins A. C.,
Soper N. J.
(1981) Cretaceous-Palaeogene sub-basaltic and intrabasaltic sediments of the Kangerdlugssuaq area, Central East Greenland. Geological Magazine 188:337–354.
OpenUrl

[66] Higgins A. C.,

[67] Soper N. J.

[68] Hoch E.
(1991) in Kangerdlussuaq Studies: Processes at a Rifted Continental Margin, Palaeontological data on life in the intra-cratonic Kangerdlugssuaq basin, Geological Institute, University of Copenhagen, eds Brooks C. K., Stærmose T. pp 45–52.

[69] Hoch E.

[70] Hooper P. R.
(1990) The timing of crustal extension and the eruption of continental flood basalts. Nature 345:246–249.
OpenUrl CrossRef Web of Science

[71] Hooper P. R.

[72] Juhlin C.
(1988) in Deep Drilling in crystalline bedrock, Interpretation of the seismic reflectors in the Gravberg-1 well, eds Boden A., Eriksson K. G. (Springer, Berlin), 1, pp 113–121.
OpenUrl

[73] Juhlin C.

[74] Klemperer S. L.,
Ryan P. D.,
Snyder D. B.
(1991) A deep seismic reflection transect across the Irish Caledonides. Journal of the Geological Society, London 148:149–164.
OpenUrl Abstract/FREE Full Text

[75] Klemperer S. L.,

[76] Ryan P. D.,

[77] Snyder D. B.

[78] Larsen B.
(1980) A marine geophysical survey of the East Greenland continental shelf between latitudes 60° and 70°N—Project DANA 79. Report of Activities, 1979. Rapport Grønlands Geologiske Undersøgelse 100:94–98.
OpenUrl

[79] Larsen B.

[80] Larsen H. C.
(1975) Aeromagnetic investigations in East Greenland. Report of Activities, 1974. Rapport Grønlands Geologiske Undersøgelse 75:88–91.
OpenUrl

[81] Larsen H. C.

[82] Larsen H. C.
(1988) in Early Tertiary Volcanism and the Opening of the NE Atlantic, A multiple and propagating rift model for the NE Atlantic, Geological Society, London, Special Publication, eds Morton A. C., Parson L. M. 39, pp 157–158.
OpenUrl

[83] Larsen H. C.

[84] Larsen H. C.
(1990) in The Arctic Ocean region. The Geology of North America, The East Greenland Shelf, Geological Society of America, eds Grantz A., Johnson L., Sweeney J. F. L, pp 185–210.
OpenUrl

[85] Larsen H. C.

[86] Larsen H. C.,
Jakobsdóttir S.
(1988) in Early Tertiary Volcanics and the Opening of the NE Atlantic, Distribution, crustal properties and significance of seawards-dipping sub-basement reflectors off E Greenland, Geological Society, London, Special Publication, eds Morton A. C., Parson L. M. 39, pp 95–114.
OpenUrl

[87] Larsen H. C.,

[88] Jakobsdóttir S.

[89] Larsen H. C.,
Armstrong G.,
Marcussen C.,
Moore S.,
Stemmerik L.
(1989) Deep seismic data from the Jameson Land basin, East Greenland. Terra Abstracts 1:10–11.
OpenUrl

[90] Larsen H. C.,

[91] Armstrong G.,

[92] Marcussen C.,

[93] Moore S.,

[94] Stemmerik L.

[95] Larsen H. C.,
Marcussen C.,
Thorning L.
(1988) Copenhagen Grønlands Geologiske Undersøgelse, Aeromagnetic anomaly map of Greenland, shelf 4. 69°–74°N, 19°–27°W, scale 1:1,000,000.

[96] Larsen H. C.,

[97] Marcussen C.,

[98] Thorning L.

[99] Larsen L. M.,
Watt W. S.
(1985) Episodic volcanism during break-up of the North Atlantic: evidence from the East Greenland plateau basalts. Earth and Planetary Science Letters 73:105–116.
OpenUrl CrossRef Web of Science

[100] Larsen L. M.,

[101] Watt W. S.

[102] Larsen L. M.,
Pedersen A. K.,
Pedersen G. K.,
Piasecki S.
(1992) Timing and duration of Early Tertiary volcanism in the North Atlantic: new evidence from West Greenland. This volume.

[103] Larsen L. M.,

[104] Pedersen A. K.,

[105] Pedersen G. K.,

[106] Piasecki S.

[107] Larsen L. M.,
Watt W. S.,
Watt M.
(1989) Geology and petrology of the Lower Tertiary plateau basalts of the Scoresby Sund region, East Greenland. Bulletin Grønland Geologiske Undersøgelse 157:1–164.
OpenUrl

[108] Larsen L. M.,

[109] Watt W. S.,

[110] Watt M.

[111] Larsen P.-H.
(1988) Relay structures in a Lower Permian basement-involved extension system, East Greenland. Journal of Structural Geology 10:3–8.
OpenUrl CrossRef Web of Science

[112] Larsen P.-H.

[113] Larsen P.-H.,
Stemmerik L.,
Nielsen T. F. D.,
Rex D. C.
(1990) Lamprophyric dykes in Revdal, Scoresby Land, East Greenland: conflicting field observations and K-Ar determinations. Bulletin of the Geological Society of Denmark 38:1–9.
OpenUrl

[114] Larsen P.-H.,

[115] Stemmerik L.,

[116] Nielsen T. F. D.,

[117] Rex D. C.

[118] Marcussen C.,
Larsen H. C.
(1991) Project ‘DYBSEIS’: Deep seismic studies in the Jameson Land basin, Unpublished final report. Grønlands Geologiske Undersøgelse.

[119] Marcussen C.,

[120] Larsen H. C.

[121] Nielsen T. D. F.
(1987) in Alkaline Igneous Rocks, Tertiary alkaline magmatism in East Greenland: a review, Geology Society, London, Special Publication, eds Fitton J. G., Upton B. G. J. 30, pp 489–515.
OpenUrl

[122] Nielsen T. D. F.

[123] Nielsen T. D. F.,
Soper N. J.,
Brooks C. K.,
Faller A. M.,
Higgins A. C.,
Matthews D. W.
(1981) The pre-basaltic sediments and the lower lavas at Kangerdlugssuaq East Greenland. Their stratigraphy, lithology, palaeomagnetism and petrology, Meddelelser om Grønland, Geoscience, 6.

[124] Nielsen T. D. F.,

[125] Soper N. J.,

[126] Brooks C. K.,

[127] Faller A. M.,

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Sill-intrusion, flood basalt emplacement and deep crustal structure of the Scoresby Sund region, East Greenland

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Sill-intrusion, flood basalt emplacement and deep crustal structure of the Scoresby Sund region, East Greenland

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Sill-intrusion, flood basalt emplacement and deep crustal structure of the Scoresby Sund region, East Greenland

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