Surge fingerprinting of cirque glaciers For comparison, the forefield of a non-surge type glacier, the Deildardalsjökull glacier (Figure 8) was examined. There were no exposures in the Deildar- dalsjökull forefield where stratigraphy and sedimen- tology of drift could be studied in sections. However, judging from shallow surface pits, the sediments seem to be mainly diamicton, with cobbles and boulders in a clayey-silty matrix. The proglacial surface carries scattered subangular cobbles and boulders. In gen- eral, the sediments are richer in fine grains sizes and angular rocks are relatively rare, compared to the Búr- fellsjökull and Teigarjökull forefields. A well-defined terminal moraine marks the maximum extent of the glacier at the end of its advance due to positive mass balance between 1980 and 1995 (Figure 8A) (Sig- urðsson, 2005; Jóhannesson and Sigurðsson, 1998). Distinct small annual (retreat) moraines (Figure 8B) reveal responses to the winter accumulation of the glacier. Older moraines further out in the valley indicate former stages of the glacier, but the age of these is not known. Flutes extend from below the present glacier margin out to the 1995 moraine. The flutes consist of diamicton, similar to the diamicton in the drift de- scribed above, and are often overprinted by the annual moraines. Neither hummocky terrain nor crevasse-fill ridges were observed. The sedimentary environment of this non-surge type cirque glacier is also charac- terized by short transport distances. However, the ge- omorphology differs from the surge-type glaciers at Tröllaskagi. DISCUSSION Conceptual model of changes in the marginal zone of surge-type cirque glaciers A conceptual model for the geomorphological devel- opment at surge-type glaciers in Tröllaskagi is out- lined in Figure 9. The development is divided into three phases based on observations in front of Búr- fellsjökull which surged from 2001–2004 and Teigar- jökull which surged in 1971. In phase A, as a surge terminates, an end moraine consisting of ice and debris has formed in front of the glacier. At this time the glacier is heavily crevassed, the margin is steep and supraglacial debris is promi- nent in the stagnant marginal zone. Phase B is characterized by downwasting of the stagnant glacier snout. When the dead-ice melts, the supraglacial and englacial debris gradually emerges and covers the ice surface. The melt rate of the ice gradually decreases as debris accumulates on the ice surface, which results in formation of hummocky moraines. In 3–5 years the glacier margin separates from its moraine, which at first is relatively big due to the ice-core. In a few years the moraine becomes smaller as the ice-core melts. Figure 8. Moraines in front of Deildardalsjökull. A) End moraine from 1995. B) Annual moraines formed in the years 2007 and 2008, which are characteristic for non-surge type glaciers. – Jökulgarðar framan við Deildardalsjökul. A) Endagarður frá 1995. B) Árgarðar myndaðir 2007 og 2008 en þeir eru dæmigerðir fyrir jafngangsjökla, þ.e. jökla sem hlaupa ekki. JÖKULL No. 62, 2012 161

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