E. R. Guðmundsdóttir et al. son et al., 2011) and VAST (Larsen et al., 2011, 2012) where tephrochronology plays an important role. In addition to serving as a dating tool and fixing points in geological archives, tephrochronology or tephra stratigraphy is a key factor in the study of data on the geochemistry and eruption frequency of volca- noes and the interrelationships between eruption se- quences both spatially and temporally (e.g. Thorar- insson, 1967; Larsen et al., 1998; Shane, 2000, 2005; Thordarson and Larsen, 2007; Óladóttir et al., 2008, 2011a). Dr. Sigurður Þórarinsson was a pioneer in tephra studies and laid the foundation of tephrochronology in the 1930’s. His focus was on Holocene tephra lay- ers in terrestrial Iceland. Since the work of Þórarins- son, substantial research on tephrochronology in Ice- land as well as in other parts of the world, where tephra layers exist, has been carried out (Lowe, 2011). Considerable knowledge on Holocene tephra stratig- raphy and tephrochronology has been gathered from terrestrial archives in Iceland especially in the south- ern, northern and central parts (e.g. Thorarinsson, 1958,1967, 1976; Larsen, 1984, 2000; Larsen et al., 2001; Óladóttir et al., 2005, 2008, 2011a,b). With increased research emphasis on climate and climate change the studies of tephrochronology have stretched into the marine realm which has enabled re- liable dating and secure land-sea correlations of vari- ous climate archives. Knowledge on tephra stratigra- phy and tephrochronology in the marine realm, espe- cially in the North Atlantic region, has been continu- ally increasing (e.g. Kvamme et al., 1989; Sejrup et al., 1989; Sjøholm et al., 1991; Lacasse et al., 1998; Eiríksson et al., 2000; Lacasse and Garbe-Schönberg, 2001; Knudsen and Eiríksson, 2002; Andrews et al., 2002; Rasmussen et al., 2003; Wastegård et al., 2005; Kristjánsdóttir et al., 2007; Brendryen et al., 2010, 2011; Thornallay et al., 2011; Gudmundsdóttir et al., 2011a,b, 2012; Davies et al., 2010, 2012). In this paper we present an overview of the cur- rent knowledge on Holocene marine tephrochronol- ogy on the Iceland shelf, (Figure 1 and Table 1). Ma- rine tephrochronology in the North-Atlantic extends as far back as 5–6 Ma (Lacasse and Garbe-Schön- berg, 2001) but the focus here will be on the last 15,000 years. The shelf around Iceland presents a unique opportunity to study tephrochronology based on explosive eruptions of volcanoes in Iceland. Dur- ing the Holocene several hundred tephra layers have been recorded in terrestrial environments (e.g. Lar- sen, 2000, 2010; Óladóttir et al., 2005, 2008, 2011a; Jóhannsdóttir, 2007; Larsen and Eiríksson, 2008a,b; Thordarson and Höskuldsson, 2008) and over 100 tephra layers in marine archives on the shelf (e.g. An- drews et al., 2002; Larsen et al., 2002; Eiríksson et al., 2000, 2002, 2004, 2011; Kristjánsdóttir et al., 2007; Gudmundsdóttir et al., 2012). The number of Ice- landic Holocene tephra layers is, however, not com- pletely known but existing terrestrial records give a rate of 6.5 tephra layers per century. The estimated number of postglacial explosive eruptions in Iceland is close to 2000 (Thordarson and Höskuldsson, 2008). APPLICATION OF MARINE TEPHROCHRONOLOGY Application of marine tephrochronology is mainly threefold; i) as a tool for dating and correlating differ- ent environments, ii) for estimating marine reservoir ages iii) and in volcanology i.e. to gather information on explosive eruption frequency and history of vol- canic systems. Dating and correlation Tephra studies have become increasingly important in Quaternary research as tephrochronology is one of a few techniques that have the potential to ad- dress chronological uncertainties. In the North At- lantic region, Greenland and western Europe, Ice- landic tephra layers have played an important role in dating and synchronizing different environments and archives (e.g. Mangerud et al., 1986; Kvamme et al., 1989; Dugmore et al., 1995a; Turney et al., 1997; Wastegård et al., 1998; Davies et al., 2001, 2003; van den Bogaard and Schmincke, 2002; Cham- bers et al., 2004; Pilcher et al., 2005; Wastegård, 2005; Blockley et al., 2007; Wastegård and Davies 2009; Haflidason et al., 2000; Eiríksson et al., 2000a, 2004; Andrews et al., 2002; Knudsen and Eiríks- son 2002; Larsen et al., 2002; Kristjánsdóttir et al., 2007; Davies et al., 2010, 2012; Gudmundsdóttir et 54 JÖKULL No. 62, 2012

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