THE GEOLOGY AND HYDROCARBON POTENTIAL OF THE PEEL AND SOLWAY BASINS, EAST IRISH SEA

Data from recent exploration campaigns by Elf Exploration UK plc and partners in the Peel and Solway Baxins (East Irish Sea) have provided significcmt new information on the geology and hydrocarbon potential of these previously unexplored areas, in this paper, I present a regional geological frameworkfor the basins based on outcrop studies, potential field data and regional seismic lines. The dominantNE-SW and NW-SEstructural trends are probably inherited from the Caledonian Orogeny and show evidence of repeated reactivation. Seismic interpretation indicates that the NE-SW trending faults were important in controlling Early Carboniferous basin development, and that transpressional movement along these faults in response to N-S compression led lo basin inversion during the Variscan Orogeny. New well data indicate that both the Peel and Solway Kasins were subjected lo major erosion at this time, causing the entire Upper Carboniferous stratigraphy to he removed. Preserved Dinantian facies comprise shallowmarine sandslones, shales and carbonates in the NE, passing into shallow-water, high energy carbonates in the SW. A change to E-W extension during the Permo-Triassic led to renewed exiensionai motion on the underlying Caledonian faults, and to the creation of a new system of faults oriented N-S. The Permian and Triassic sections present in the wells in the Peel and Solway Basins are veryʹ similar to those in the numerous exploration wells in the East Irish Sea Basin to the SE. Liassic rocks are partly preserved in both the Peel and Solway Basins. The intra-hasinal highs which separate the basins in this region are thought to have been initiated during Late Cimmerian uplift, and lo have been enhanced by Laramide and Alpine phases of uplift. Luramide uplift was also accompanied by the emplacement of WNW-ESE trending dykes. Regional sfratigraphic information has been combined with apatite fission-track data and vitrinite reflectance data to constrain these phases of uplift. These data suggest that at the present day, tile Peel and Solway Basins are isolated remnants of a previously more extensive cover of Mesozoic rocks. The three exploration wells drilled in the Peel and Solway Basins by Elf Exploration UK-pie tested valid. Triassic fault-block traps, hut failed to encounter any significant hydrocarbon shows. Variable, hut generally good quality reservoirs exist al the top of the Sherwood Sandstone Group. The main control on reservoir quality is the primary sedimentological character of the sandstones, with cementation and compaction locally reducing quality. Over most of the area, evaporites and shales in the Mercia Mudstone Group form a viable top and lateral seal. The main factor preventing development of a viable petroleum system appears to be the absence of significant Carboniferous source roctis.