Fig. 4. The second order polynomial trend which is subtracted from the Bouguer anomaly as regional background. This trend is a part of the bowl-like regional trend observed in the gravity map of Ice- land. Contour lines are 2.5 milligals apart. Mynd4. Bakgrunnssvið þyngdarmœlinganna. Frá Bouguer gildunum er dregið bakgrunnssvið sem er fundið með annarrar gráðufjölliðu. Bakgrunnssvið- ið er hluti afþeirri skálarlaga þyngdarlægð sem ein- kennir Bouguer þyngdarkortið af öllu Islandi. Milli jafngildislína eru 2.5 milligal. edges of the Langjökull glacier, but no data are available from the glacier so their existence is not well documented. An altemative view of the particulars of the grav- ity low has been offered by Sæmundsson (pers. comm.). Rather than focusing on the minima, he points out that they are separated by central volcanic complexes or areas of maximum volcanic produc- tion, which might be expected to give rise to posi- tive gravity anomalies. Sæmundsson (in press) has also suggested the existence of two separate rows of volcanic complexes transverse to the rifting zone, which would encompass these local gravity highs. The second largest gravity anomaly in Figure 5 is a gravity high in the Southern lowlands. This ano- maly is separated from a somewhat lesser high in the vicinity of Þjórsárdalur by a NW trending gravity valley. The two highs could either be interpreted as a plateau of high values between the westem and eastem volcanic zones in South Iceland, or as two local highs related to extinct central volcanoes. The first interpretation requires an explanation of the gravity low that runs NW from Hekla to the Hreppa- fjöll mountains and possibly across the rifting zone. The second interpretation requires an explanation of the expansive gravity high in the Southem lowlands, which seems far too large to be produced by a single volcano. East of this we see a small comer of a deep grav- ity low, presumably associated with the eastem vol- canic zone. The minimum of this low is located at Hekla. The northwest comer of the map is characterized by relatively high gravity values, reflecting higher density values in geologically older provinces. Superimposed on this are a couple of roughly circu- Iar positive anomalies, at Ferstikla by Hvalfjörður and at Hafnarfjall by Borgarfjörður. These are both related to extinct central volcanoes (Franzson, 1978). South of the Ferstikla anomaly there is a lesser gravity high at Stardalur (Friðleifsson and Kristjánsson, 1972), and southwest of it a part of an anomaly with an offshore center. Both anomalies are thought to reflect eroded volcanic centers. DIRECTIONAL ANALYSIS OF THE GRAVITY MAP The directionality of the gravity map is analyzed by calculating its two-dimensional power spectrum, shown in Figure 61. The data are first windowed in 1. The gravity map consists of 64x64 grid points based on 290 gravity stations, which means it is heavily overgridded. The spectrum shown in Figure 6, however, is limited to the lower half of the frequency range (32x32 values). The wavelength at the edge of the spectral plot is approximately 8 kilometers. Thus, the contour lines drawn in Figure 6 generally correspond to wavelengths exceeding the distance between stations. 44 JÖKULL, No. 39, 1989

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