Three lines of evidence from the present survey may be used to make inferences about sediment transport in the study area. These are a) grain size of the sediments, b) the dis- tribution of carbonate and c) the bedforms observed on the sonographs. a) A general guide to sediment grain size in the area is the sonar map (Fig. 3), which broadly shows a pattern of decreasing grain size downslope, away from unit 1, with coarser material appearing again in the south. b) The carbonate distribution illustrated in Fig. 6 is roughly parallel to grain size trends in that carbonate content appears, broadly, to decrease with water depth. Taken on their own, these two properties, viz. grain size and carbonate content, might be taken to indicate downslope sediment transport radially away from the central shal- low areas. The carbonate distribution would then indicate high carbonate productivity in and around the “hraun” areas, and the out- wards decrease in carbonate content would represent decreasing productivity or mixing with terrigenous material. This suggestion is not supported by the bedforms, as discussed below. c) Bedforms observed in the study area are defined by relief patterns on the one hand, and variations in grain size on the other. Those bedforms defined by relief are the ripples of map unit 2. The fact that these ripples occur in gravel, and their wavelength is of the order of 1 m, suggest kinship with ripp- les described by Flemming and Stride (1967) and Channon and Hamillon (1976) off the south- western coast of England, which were ascribed to the action of oscillatory wave currents. The orientation of the gravel ripples found here is generally near N—S (i.e. parallel or subparallel to the survey tracks). They are thus indicative of E—W (oscillatory) motion. A piece of evidence indicating that the rippled gravel is indeed in motion is provided by some dredge marks observed to the east of Sydra- Hraun. At the time the survey took place, the suction dredger SANDEY was at work in the area on her annual 1-month dredging oper- ation for the State Cement Works. The marks left by the dredger were the only ones observed in this area where dredging has taken place for a number of years. It seems clear that dredge marks from previous years have been filled in by the movement of the bottom sediment. Bedforms defined mainly by variation in grain size make up the rest of bedforms ob- served in the area and were found in map units 2, 3 and 4. They are perhaps best brought out where they occur on the boundaries of these units. The bedforms include the elongate sand and gravel bodies along the northeastern border of the map, the crescentic forms at the boundary between units 2 and 3 in the southeast, the striped and criss-cross pattern of unit 4 and the irregular boundary between units 3 and 4 in the south. All these bedforms have been identified as falling in the category of sediment patches. Analogous bedforms have been found to be widespread on the shelf of the British Isles, for example (Belderson, Kanyon and Stride, 1971), and to occur in areas of weak tidal currents (less than about 50 cm/sec). Linearity of sand patches has been found to be parallel or transverse to peak tidal currents. Although sand patches occur in areas of low transport rates, suggestions of transport direc- tion may be made on the basis of the nature of the sand/gravel boundary, mainly its sharp- ness. Sharp, well defined boundaries often represent a steep edge of the sand body over- lying the gravel (Channon and Hamillon, 1976), whereas a diffuse, or gradational, boundary suggests a more gradual thinning of the sand. A sharp boundary is thought likely to represent the downcurrent side of a sand patch. A direct comparison of the Faxaflói sand patches with British examples shows a degree of similarity. Some of the longitudinal, NW—SE-trending features in the northern part of the area resemble features found by Belderson, Kenyon, Stride and Stubbs (1971, Fig. 71) in the Celtic Sea, although there is a transverse component to the shape of the Faxaflói patches. This transverse trend is not a right angles to the elongation of the sand and JÖKULL 28. ÁR 49

Qupperneq 1
Qupperneq 2
Qupperneq 3
Qupperneq 4
Qupperneq 5
Qupperneq 6
Qupperneq 7
Qupperneq 8
Qupperneq 9
Qupperneq 10
Qupperneq 11
Qupperneq 12
Qupperneq 13
Qupperneq 14
Qupperneq 15
Qupperneq 16
Qupperneq 17
Qupperneq 18
Qupperneq 19
Qupperneq 20
Qupperneq 21
Qupperneq 22
Qupperneq 23
Qupperneq 24
Qupperneq 25
Qupperneq 26
Qupperneq 27
Qupperneq 28
Qupperneq 29
Qupperneq 30
Qupperneq 31
Qupperneq 32
Qupperneq 33
Qupperneq 34
Qupperneq 35
Qupperneq 36
Qupperneq 37
Qupperneq 38
Qupperneq 39
Qupperneq 40
Qupperneq 41
Qupperneq 42
Qupperneq 43
Qupperneq 44
Qupperneq 45
Qupperneq 46
Qupperneq 47
Qupperneq 48
Qupperneq 49
Qupperneq 50
Qupperneq 51
Qupperneq 52
Qupperneq 53
Qupperneq 54
Qupperneq 55
Qupperneq 56
Qupperneq 57
Qupperneq 58
Qupperneq 59
Qupperneq 60
Qupperneq 61
Qupperneq 62
Qupperneq 63
Qupperneq 64
Qupperneq 65
Qupperneq 66
Qupperneq 67
Qupperneq 68
Qupperneq 69
Qupperneq 70
Qupperneq 71
Qupperneq 72
Qupperneq 73
Qupperneq 74
Qupperneq 75
Qupperneq 76
Qupperneq 77
Qupperneq 78
Qupperneq 79
Qupperneq 80
Qupperneq 81
Qupperneq 82
Qupperneq 83
Qupperneq 84
Qupperneq 85
Qupperneq 86
Qupperneq 87
Qupperneq 88
Qupperneq 89
Qupperneq 90
Qupperneq 91
Qupperneq 92
Qupperneq 93
Qupperneq 94
Qupperneq 95
Qupperneq 96
Qupperneq 97
Qupperneq 98
Qupperneq 99
Qupperneq 100
Qupperneq 101
Qupperneq 102
Qupperneq 103
Qupperneq 104
Qupperneq 105
Qupperneq 106
Qupperneq 107
Qupperneq 108
Qupperneq 109
Qupperneq 110
Qupperneq 111
Qupperneq 112
Qupperneq 113
Qupperneq 114
Qupperneq 115
Qupperneq 116