Reviewed research article Holocene marine tephrochronology on the Iceland shelf: An overview Esther Ruth Guðmundsdóttir1,2 Jón Eiríksson1,3 and Guðrún Larsen1 1Institute of Earth Sciences, University of Iceland, Askja, Sturlugata 7, IS-101 Reykjavík, Iceland 2The Nordic Volcanological Center, Institute of Earth Sciences, University of Iceland 3University of Copenhagen, Centre for GeoGenetics, Natural History Museum, Copenhagen, Denmark Corresponding author: estherrg@hi.is Abstract – Currently the Late-glacial and Holocene marine tephrochronology on the shelf around Iceland comprises 130 tephra layers from 30 sediment cores ranging in age from 15,000 years cal. BP to AD 1947. A vast majority of the cores and tephra layers are from the North Iceland shelf. Much fewer tephra layers have been found on the South and West Iceland shelf. The early Holocene Saksunarvatn ash and Vedde Ash are the only tephra layers identified on all investigated shelf areas. For the last 15,000 years correlated tephra layers from the shelf sediments around Iceland to their terrestrial counterparts both in Iceland and overseas are 40 of which 26 are terrestrially dated tephra markers. Thirty correlations are within the last 7050 years. The terres- trially dated tephra markers found on the shelf have been used to constrain past environmental variability in the region, as well as marine reservoir age. The marine tephra stratigraphy on the North Iceland shelf has revealed variations in volcanic activity in Iceland further back in time than terrestrial records in Iceland. The numerous tephra layers identified in the sediments on the shelf demonstrate the potential of marine tephrochronology for dating purposes, land-sea correlation, marine reservoir estimations and reconstruction of past volcanic activity of Icelandic volcanoes. INTRODUCTION The application of tephrochronology is twofold; as a tool in volcanology, deciphering volcanic history and as a stratigraphic dating tool, using layers of tephra as time parallel marker horizons. In recent times tephrochronology (sensu lato) has been adopted as a general term used broadly to describe all aspects of tephra studies (Lowe, 2011). The term tephra was brought to modern terminology by Sigurður Þórarins- son in 1944 and is a collective term for all airborne pyroclasts produced in volcanic eruptions regardless of size and shape. Tephrochronology has been a growing field in geology. The reason for the increased interest in tephrochronology is the unique ability of the method to precisely link and date geological, palaeoecolog- ical, palaeoclimatic or archaeological sequences or events. Not many methods if any can match the pre- cision it offers temporally and spatially (Lowe, 2011). Tephrochronology has proven to be one of the prin- cipal chronological tools for dating Quaternary se- quences. This is demonstrated in globally impor- tant projects such as INTIMATE (Integrating ice-core, marine and terrestrial global records 60,000 to 8,000 years ago) (Turney et al., 2004; Davies et al., 2012) SMART (Synchronizing marine and ice-core, marine records using tephrochronology) (Abbott et al., 2011; Abbott and Davies, 2012), SUPRAnet, (Studying un- certainty in palaeoenvironmental reconstructing – a net) (Lowe, 2008), HOLSMEER, Millennium (Eiríks- JÖKULL No. 62, 2012 53

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