TWO-WAY TRAVEL TIME (sec) 124 IMAGING OF BASALT AND UNDERLYING STRUCTURES IN THE FAROESE OFFSHORE AREA Figure 4. Profile 2, crossing the East Faroe High and descending into the Faroe-Shetland Channel. Description ofmajor geophysical features given in the text. Also notable is the relative thinning and thickening of the Miocene and Oligocene units, possibly representative ofthe interactions between uplift, subsidence, and sediment supply. 1. Miocene to recent sediments are the shallowest unit mapped (blue-green color); although refelctors tend to be long and continuous, this interval displays the characteristics typical of Neogene bottom contour current effects (Boldreel and Anderson, 1995). 2. The Oligocene period is represented by the blue interval and tends to consist of short, disrupted re- flector segments, possibly due to the incompetent or high velocity environment present during deposi- tion; its upper boundary with the Miocene may be taken as a diagentic horizon. 3. The Eocene unit (dark orange) is well layered where present, strongly reflective, and mainly conformable with the basalt rocks which it overlies. As this unit is highly positive in its magnetism, it may represent eroded volcanic material. It appears to correlate with the Andrew Formation found West of Shetlands and in the North Sea, where it is a known hydrocarbon producing unit. 4. The basalt (orange) rocks are delineated from the overlying units by a sharp, strong acoustic impe- dance boundary which is readily recognized and can be correlated throughout the Tertiary Igneous Pro- vince (Wood, Hall, and Doody, 1988). The intemal structure is signified by a rather continuous, parallel bedded nature which is characteristic of subaerially extruded plateau basalts (Smythe et al, 1983; Wood, Hall, and Doody, 1988, Boldreel and Anderson 1993). This line crosses the Faroe-Shetland Escarpment at wd 1150. The Faroe-Shetland Escarpment is thought to represent the location of the paleocoast- line at the time of formation of the basalt (Jones and Nelson, 1970; Smythe et al, 1983; Boldreel and Anderson, 1994) where the basalt flows have built outwards when they are cooled by contact into water. The basalt flows within the escarpment here have a slope of 19 degrees when reduced to zero vertical exaggeration and appear to be quite faulted. It can also be observed that the basalt unit thins basinwards of the escarpment; this might represent the transition from the presence of all three Faroese basalt units as described in outcrop (Upper, Middle, and Lower Series, Waagstein 1988) to Lower Series only within the basin (Smythe et al, 1983; Anderson, 1988). 5. The green unit interval denoted as Subbasalt 1 is interpreted as the uppermost unit underlying the basalt. This unit may, in fact, represent older basalt but there are several factors which preclude this interpretation: a. The unit does not display the same genetic plane parallel bedded character shown in the overlying orange basalt unit, believed to be subaerial in nature of formation; b. Reflector segments are shorter,stronger, infills the geometries of its basal unit, and shows onlap, downlap, and truncation features. c. Internal clinoform segments are steep (in the

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