Holocene tephra stratigraphy and eruption frequency of Katla, S-Iceland A principal difference between the activity in his- torical and prehistoric times is that in the latter pe- riod the Katla volcano produced dacitic (SILK) tephra along with the typical basaltic activity. These SILK layers were produced over a period of ∼6000 years, extending from∼7600 to∼1600 years ago and corre- sponding to∼6600 to∼1680 14C years BP (Larsen et al., 2001). METHODS Field methods and criteria In order to obtain a representative composite tephra section, selection of suitable soil profiles is critical. Firstly, such profiles have to be located at an appropri- ate distance from the source volcano. Close to a vol- cano the tephra is often deposited on barren ground, increasing the likelihood of erosion and reworking of the primary fall. This decreases the preservation po- tential of individual layers and may also result in sig- nificant contamination between adjacent tephra lay- ers. On the other hand, a soil section too far from the source volcano will not include tephra fall from low- intensity eruptions due to their limited dispersal. Sec- ondly, the topography has to be favourable. Tephra layers are best preserved in topographic lows which commonly act as sediment traps ensuring rapid burial of the tephra. Thirdly, the sections should contain tephra layers that show minimal post-depositional re- working and disturbance, i.e. contain the primary fa- cies of the tephra fall. The macroscopic characteristics that are used to distinguish individual tephra layers are a function of several factors. The colour of the tephra is a di- rect function of chemical composition, changing from black to white with increasing silica. Properties such as grain size and size distribution, sorting and clast shapes are symptomatic of the nature of the explosive activity that produced the layer. The type and content of crystals and lithics are also diagnostic features in some tephra layers (Table 2a, 2b). Felsic tephra layers are readily identified in Icelandic soils by their light colour and are therefore ideal key marker horizons for correlation between outcrops. The soils of the study area include over 20 felsic tephra layers formed by ex- plosive eruptions at the Katla, Hekla, Torfajökull, and Öræfajökull volcanoes. Table 2a: Criteria used during field measurements. a) Grain size classification. – Einkenni notuð við grein- ingu gjóskulaga á vettvangi. a) Kornastærðir. Grain size (mm) Nomenclature >64 Blocks and bombs 32–64 Coarse lapilli 16–32 Medium lapilli 2–16 Fine lapilli 1–2 Coarse ash 0,064–1 Medium ash <0,064 Fine ash The principal historical marker tephra layers found in the study area east of Katla volcano (Figure 1) originate fromHekla (H), Veiðivötn (V), Öræfajök- ull (Ö) and Eldgjá (E). The historical part of the tephra stratigraphy includes 7 key marker layers. From the youngest to the oldest, these are: H-1845, a brown andesite tephra consisting of very coarse ash; H- 1597, an andesite layer composed of bluish-black fine ash; V-1477, a distinct basaltic tephra layer made up of greyish-green to greyish-brown fine ash; H- 1389, a brown andesite layer comprised of coarse ash; Ö-1362, a yellow-white (rhyolite) very-fine to fine ash that is present as a sub-centimetre-thick discon- tinuous layer; H-1206 is olive-grey fine ash of an- desitic/dacitic composition; and finally the basaltic tephra of E-934, a black to brown bedded layer of lapilli and ash (Thordarson et al., 1998; Larsen, 2000). The Vatnaöldur tephra, the basaltic compo- nent of the Settlement Layer, formed in a phreatomag- matic fissure eruption in the Veiðivötn volcanic sys- tem around 870 AD (Larsen, 1984; Grönvold et al., 1995; Zielinski et al., 1997), is a prominent marker layer that marks the transition from historical to pre- historic times. It is readily distinguished in soil profiles of the area studied by its greenish-grey to greenish-black colour and its relatively high propor- tion of plagioclase crystal fragments. In all, seven prehistoric tephra layers found in the study area have been dated by the radiocarbon method, six felsic and one basaltic (RF4), and five ad- JÖKULL No. 55 57

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