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Early Tertiary palaeoenvironments and sedimentation in the NE Main Porcupine Basin (well 35/13–1), offshore western Ireland?evidence for global change in the Tertiary
Author(s) -
Dobson M. R.,
Haynes J. R.,
Bannister A. D.,
Levene D. G.,
Petrie H. S.,
Woodbridge R. A.
Publication year - 1991
Publication title -
basin research
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.522
H-Index - 83
eISSN - 1365-2117
pISSN - 0950-091X
DOI - 10.1111/j.1365-2117.1991.tb00142.x
Subject(s) - geology , unconformity , paleogene , paleontology , contourite , structural basin , lithostratigraphy , sedimentary depositional environment
ABSTRACT Shell‐Agip 35/13–1 well drilled 2445 m of Tertiary sediments in the Main Porcupine Basin situated offshore west of Ireland. Early Tertiary sediments and microfossils indicate a major cycle from deep‐sea to marginal marine and terrestrial palaeoenvironments returning to deep water. By means of seismic and lithostratigraphy and petrophysical logs, three deltaic cycles can be distinguished within this major cycle. The microfaunal zonation indicates that these cycles are of late Palaeocene, early Eocene and mid/late Eocene age and, therefore, correlate broadly with the Thanet Cycle, London Clay Cycle and the Bracklesham Cycles of the Anglo‐French type sections, although they are up to an order of magnitude thicker due to rapid basin subsidence. Three major unconformities can be distinguished together with a disconformity that becomes an unconformity in the North Porcupine Basin. These surfaces are associated with both local and regional tectonic and igneous events. Detailed microfossil and lithological analyses across the major unconformities allows a reasonable matching with the global sea‐level curve and recognition of the major and medium sequence boundaries. Discrepancies during the late Eocene may relate to local faulting. The pattern of sedimentation reflects the restriction of North Atlantic circulation and the tendency to euxinic bottom conditions during the early Palaeogene. In the middle Thanetian these conditions invaded the shelf, an event recorded elsewhere in NW Europe. Discontinuous seismic reflectors indicate ‘chaotic’ sedimentation connected with more vigorous circulation and erosion in the early Oligocene. This was followed by a change to parallel bedded contourites and drifts after the cutting of the early Miocene unconformity. The study reveals the complex interplay of eustatic and oceanographic change with local and regional tectonics in the development of the basin.

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