TY - JOUR
T1 - Integrating the INTIMATE records using tephrochronology: rising to the challenge
AU - Davies, Siwan M.
AU - Abbott, Peter M.
AU - Pearce, N. J. G.
AU - Wastegård, Stefan
AU - Blockley, Simon P. E.
N1 - Funding Information:
SMD’s work is supported by NERC (NE/F020600/1, NE/H012273/1, NE/D000416/1), European Research Council (TRACE project: 259253) and the Climate Change Consortium of Wales (C3W). PMA’s work was supported by a NERC PhD studentship (NER/S/A/2005/13417). We would like to thank Anna Ratcliffe and Nicola Jones for drawing Figs. 2, 3 and 6 . We also thank Dr David Steele and Dr Chris Hayward for their help with the acquisition of major-element data at the Tephrochronology Analytical Unit, University of Edinburgh. This paper also contributes to the INTREPID project Enhancing tephrochronology as a global research tool through improved fingerprinting and correlation techniques and uncertainty modelling – an INQUA INTAV-led project (International Focus Group on Tephrochronology and Volcanism, project no. 0907). We are grateful to Dr Bill Austin and an anonymous reviewer for their constructive reviews.
PY - 2012/3/12
Y1 - 2012/3/12
N2 - Little has challenged our understanding of climate change more so than the abruptness with which large-scale shifts in temperature occurred during the Late Quaternary. The causal mechanisms driving these rapid changes are poorly understood, largely due to the inherent difficulties of integrating palaeoclimate records which represents the key focus of the INTIMATE.
11INTIMATE: INTegration of Ice, MArine and TErrestrial record is a core project of the INQUA Palaeoclimate Commission. Australasian and North Atlantic projects are currently active. This paper refers specifically to the objectives of the North Atlantic group. project. Tephrochronology has become central to the synchronisation goals of INTIMATE, the overall aim of which is to test the degree of climatic synchroneity in relation to these rapid climatic events. Here we present a European framework of 12 volcanic events that hold considerable promise for achieving the INTIMATE goals and effecting precise correlation of widespread palaeoarchives. These tephras are widespread and fall stratigraphically in close association to rapid climatic changes. We believe that these represent the most valuable tephras for the European INTIMATE project, but also highlight those that require urgent investigation to refine their geochemical signatures, eruptive context and chronological and stratigraphical uncertainties. For instance, new data are presented for the Saksunarvatn Ash that question the sole reliance on major-element analysis for tephra characterisation and highlights some of the challenges that remain for tephra studies. Accordingly, we outline a number of key recommendations relating to geochemical characterisation, data comparison, assessing the depositional integrity of tephra horizons as well as methods for improving age estimates - all of which will optimise the application of tephrochronology to meet the INTIMATE goals.
AB - Little has challenged our understanding of climate change more so than the abruptness with which large-scale shifts in temperature occurred during the Late Quaternary. The causal mechanisms driving these rapid changes are poorly understood, largely due to the inherent difficulties of integrating palaeoclimate records which represents the key focus of the INTIMATE.
11INTIMATE: INTegration of Ice, MArine and TErrestrial record is a core project of the INQUA Palaeoclimate Commission. Australasian and North Atlantic projects are currently active. This paper refers specifically to the objectives of the North Atlantic group. project. Tephrochronology has become central to the synchronisation goals of INTIMATE, the overall aim of which is to test the degree of climatic synchroneity in relation to these rapid climatic events. Here we present a European framework of 12 volcanic events that hold considerable promise for achieving the INTIMATE goals and effecting precise correlation of widespread palaeoarchives. These tephras are widespread and fall stratigraphically in close association to rapid climatic changes. We believe that these represent the most valuable tephras for the European INTIMATE project, but also highlight those that require urgent investigation to refine their geochemical signatures, eruptive context and chronological and stratigraphical uncertainties. For instance, new data are presented for the Saksunarvatn Ash that question the sole reliance on major-element analysis for tephra characterisation and highlights some of the challenges that remain for tephra studies. Accordingly, we outline a number of key recommendations relating to geochemical characterisation, data comparison, assessing the depositional integrity of tephra horizons as well as methods for improving age estimates - all of which will optimise the application of tephrochronology to meet the INTIMATE goals.
KW - Tephra isochrones
KW - Precise correlation
KW - Geochemical analysis and data comparison methods
KW - Saksunarvatn Ash
KW - Depositional processes
UR - http://hdl.handle.net/2160/8645
UR - http://www.scopus.com/inward/record.url?scp=84857360368&partnerID=8YFLogxK
U2 - 10.1016/j.quascirev.2011.04.005
DO - 10.1016/j.quascirev.2011.04.005
M3 - Article
SN - 0277-3791
VL - 36
SP - 11
EP - 27
JO - Quaternary Science Reviews
JF - Quaternary Science Reviews
ER -