Pleistocene rhyolitic volcanism at Torfajökull, Iceland SAMPLE DESCRIPTIONS Ring fracture rhyolites On the basis of corroborating evidence from morpho- stratigraphy, chemistry, mineralogy, and eruptive lo- cation, McGarvie (1985) hypothesised that the ring fracture rhyolites were the products of one large glaciovolcanic eruption. A tentative volume estimate of 26.4±7.6 km3 was given with the caveat that high uncertainties existed due to both incomplete map- ping and incomplete geochemical characterisation of the eruptive units. Following publication of the first detailed geological map of Torfajökull (Sæmunds- son and Friðleifsson, 2001) and mapping undertaken during this study, the original estimate has been re- evaluated and a new minimum estimate of 16 km3 is considered to be more realistic. This has been derived from revising the volume estimates of the glaciovolcanic edifices now considered to belong to the ring fracture rhyolites: Rauðfossafjöll (5.5 km3), Illihnúkur (2.2 km3), Kirkjufell (2.5 km3), Laufafell (3.3 km3), and the scattered outcrops around the southern and eastern margins of the Torfajökull ice cap (2.5 km3). See Figure 2 for localities. Samples for Ar-Ar dating were selected from two widely separated rhyolite tuyas: Illihnúkur (sample TJ97-18) in the east and SW Rauðfossafjöll (sample TJ97-29) in the west (Figure 2). Illihnúkur forms a slightly arcuate ridge (oriented roughly N-S) rising to 1131 m from a base level at c. 670 m. It has an es- timated volume of 2.2 km3. Phreatomagmatic tephra exposed within gullies cut into its western flank is overlain by subaerial lava flows, and strongly suggests that Illihnúkur is a rhyolite tuya (c.f. Tuffen et al., 2002). Sample TJ97-18 is a porphyritic obsidian with 3% phenocrysts collected from a lava flow near the summit. Phenocrysts are dominated by euhedral and unzoned feldspars (anorthoclase) up to 2 mm in size but mostly around 0.5–1 mm, with minor amounts of ferroaugite, fayalitic olivine (Fo8), and titanomag- netite that rarely exceed 0.5 mm in size, set in a flow- banded and microlite-rich glass (A.G. Tindle, unpub- lished data). This sample is a mildly-peralkaline rhyo- lite (agpaitic index of 1.0) and is a comendite accord- ing to the classification scheme of Macdonald (1974). The base-summit height difference of 460 m suggests that the ice sheet was at least this thick at the time of eruption. This sample has an Ar-Ar age of 72±7 ka. The Rauðfossafjöll area is a site of multiple and seemingly-contemporaneous rhyolite glaciovolcanic eruptions (McGarvie, 1984; Tuffen, 2001; Tuffen et al., 2002), with an estimated volume of 5.5 km3 (Mc- Garvie, 1985). It comprises four well-developed tuyas that are aligned in a NE-SW orientation reflecting eruption along linear fissures, together with associ- ated peaks, ridges, and various marginal glaciovol- canic units. Sample TJ97-29 was collected from the summit of the most south-westerly tuya, which rises to 1174 m from a base level of 800 m. The sum- mit region of SW Rauðfossafjöll is flat-topped and comprises sub-horizontal lava flows with occasional pumiceous carapaces; features interpreted by Tuffen et al. (2002) on the nearby SE Rauðfossafjöll tuya as indicating eruption of the uppermost part of the tuya into a subaerial environment. Sample TJ97-29 is a porphyritic obsidian with 2% phenocrysts collected from a lava flow on the southern side of the sum- mit plateau. Phenocrysts are dominated by euhedral- subhedral and unzoned feldspars (anorthoclase) up to 1 mm in size but mostly around 0.5, with mi- nor amounts of ferroaugite-ferrohedenbergite and il- menite that are mostly less than 0.3 mm in size, set in a flow-banded glass containing sparse microlites (A. G. Tindle, unpublished data). This sample is a mildly-peralkaline rhyolite (agpaitic index of 1.0) and is a comendite according to the classification scheme of Macdonald (1974). The base-summit height differ- ence of 290 m suggests that the ice sheet was at least this thick at the time of eruption. This sample has an Ar-Ar age of 67±9 ka. Older rhyolite tuya One sample (TJ97-22) was collected from Gvendar- hyrna (Figure 2), an isolated and prominent edifice that may be an eroded tuya, as indicated by its strong vertical development (that suggests confinement by ice), remnants of a substantial (c. 70 m thick) lava cap, and rare exposures of phreatomagmatic tephra lying stratigraphically beneath the capping lava (c.f. Tuffen et al., 2002). Gvendarhyrna forms a distinc- tive and short NNE-SSW oriented ridge with a vol- ume of c. 0.2 km3 that has a summit elevation of JÖKULL No. 56 63

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