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Jökull - 01.01.2012, Qupperneq 44

Jökull - 01.01.2012, Qupperneq 44
Dugmore and Newton tributions, despite their large scale and extensive distal spread (Thórarinsson, 1956, 1981a). In general, the years of their formation (1875, 1362 and c. 2,250 BC) have somewhat less general historical, ecological or archaeological interest than the Landnám period, al- though the eruptions themselves are of volcanological significance. Although the context and the research questions being asked will ultimately determine the immedi- ate worth of any tephra layer, those that are identi- fied with less certainty, not effectively correlated or inaccurately dated will generally have less individ- ual value. Tephrochronology can, however, be far more than the utilisation of a limited number of out- standing isochrons, and the sum of parts combined may be much greater than the tally of individual com- ponents. Collective worth can be developed in two ways; firstly through the local utilisation of whole tephra stratigraphies, including poorly provenanced layers, re-deposited tephras, patchy deposits, notable absences and cryptotephras. Secondly, environmental data may be extracted from the form and local distri- bution of tephra layers themselves. This development of ’added value’ to tephrochronology is most straight- forward when dealing with visible traces of multiple tephra deposits that can be mapped in the field. In NW Europe, where Icelandic tephras are mostly present as cryptotephra deposits (and thus not visible in the field), tephrochronology has tended to focus on a limited number of key marker horizons (e.g. Dugmore et al., 1995; Pilcher et al., 1996; Tur- ney et al., 1997; van den Bogaard and Schmincke, 2002; Wastegård and Davies, 2009). This is the log- ical development of tephra studies that began with the convincing demonstration that identifiable tephra deposits were present, even though they were hid- den from view (Persson, 1971; Thórarinsson, 1981a; Dugmore, 1989a). The significant effort required to isolate and identify cryptotephras has meant that their principal contribution has been to provide a lim- ited number of unambiguous and key dates within palaeoenvironmental sequences. While this has pro- duced very effective and high profile developments of tephrochronology, such as the identification of the Vedde and Saksunarvatn tephras within the last glacial-interglacial transition of the British Isles (Tur- ney et al., 2006), it represents a fraction of the poten- tial richness of interpretation made possible through Thórarinsson’s original vision (Thórarinsson, 1944). To explore the development of this vision in more de- tail, this paper will focus on geomorphological appli- cations in the birthplace of modern tephrochronology, and, we hope, pay tribute to Thórarinsson’s enduring scientific legacy. When isochronous tephra layers do not necessarily define isochronous surfaces When a tephra layer is formed by in-situ fallout from an eruption cloud, the contact surface between the tephra and the underlying landscape forms an isochron (Figure 2). There are times, however, when this temporal relationship between the tephra and the landscape it covers may not be that simple. It is the surface that is the isochron; the materials that form the surface may or may not be of the same age. For example, a landscape formed by patches of eroding soil, river terraces and exposed glacial sediments will have a surface that is a mosaic of different aged mate- rials, but has a common exposure at a moment in time (i.e. the moment the tephra fell). This provides the single biggest contrast between the landscape applications of tephrochronology in ge- omorphology and archaeology and its more restricted use in dating sedimentary sequences, such as lake sed- iments or peat cores. We have established that the surface on which a tephra falls may be composed of materials of quite different ages, but the surface ex- posed to tephra fall is isochronous. This can, however, change after the deposition of the tephra layer, even if the stratigraphic location of the tephra within the sedi- ment sequence remains unchanged. A common exam- ple of this is cryoturbation of near-surface sediments, leading to frost hummock (thufur) formation (Figure 3). In these circumstances, the tephra layers affected by the hummock formation still define isochrons, but it may be that neither the underlying materials in con- tact with an individual tephra layer, nor the surface defined by the base of the tephra layer are of a similar age; after disturbance the age of the tephra will not be the same as the cryoturbation structures they define. 42 JÖKULL No. 62, 2012
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