Major and trace element characterization of tephra layers offshore Pantelleria Island: insights into the last 200 ka of volcanic activity and contribution to the Mediterranean tephrochronology

Tamburrino, Stella; Insinga, Donatella; Sprovieri, Mario; Petrosino, Paola; Tiepolo, Massimo

doi:10.1002/jqs.1504

Cited by 45 publications

(26 citation statements)

References 58 publications

(120 reference statements)

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“…The last tuned age for Y-6 comes from the higher resolution record of ODP leg 160 site 963A cored off south-western Sicily (Emeis et al, 1996) and recently revised by Tamburrino An identical age of 42.5 ka is also claimed for Y-6 in the same core based on yet another age model tied to SPECMAP (Tamburrino et al, 2012; Basically, the age models derived in the same core by Tamburrino et al (2012) and Sprovieri et al (2012) differ in that the first is based on long-term orbital oscillations, the second on sub-orbital climatic frequencies, i.e. at low and high-temporal resolution, respectively.…”

Section: Comparison With "mentioning

confidence: 94%

“…First, to provide a direct and more robust calibration of multi-proxy paleoclimatic cores recording Y-6 (e.g., Tamburrino et al, 2012). Next, to keep pace with the ever improving precision of Late-Pleistocene paleoclimatic reconstructions spanning the last glacial cycle in this particular area (e.g., Lourens, 2004;Sprovieri et al, 2012).…”

Section: The Green Tuff (Gt) Of Pantelleria and The Y-6 Ash Layermentioning

confidence: 99%

“…As discussed further above, visual matching to either one or the other model age is inherently subjective. Alternative calibration of the GT against the original age model of Tamburrino et al (2012) tied to NGRIP returns a visually-matched estimate at 45 ± 1 ka. This underscores both the convergence of hand-tied estimates around ~ 45 ka but, more importantly, the variability inherent to interpolating across different age models in the same record.…”

Section: Comparison With "mentioning

confidence: 99%

“…Incidentally, the new 40 Ar/ 39 Ar age estimate lends support to the conclusion by Vogel et al (2010) that the peralkaline tephra M5 recognized at Lesvos by Margari et al (2007) is more probably correlated with the P-11 Mediterranean tephra layer than with the GT proper. With a sampling frequency about twice to five times greater than other cores, the data from core ODP 160-963 represent a qualitative improvement with near-millennial resolution, potentially allowing phase relationships to be investigated relative to the Greenland timescale Tamburrino et al, 2012). The calibration of Tamburrino (2008) The nominal 2.5 ± 0.6 ka age difference between our 40 Ar/ 39 Ar age and the 42.5 ka NGRIPtied calibration of Tamburrino (2008) and Sprovieri et al (2012) may be a reflection of this effect, potentially implying a phase shift of one D/O cycle length to align both records (Fig.…”

Section: Comparison With "mentioning

confidence: 99%

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Millennial-scale phase relationships between ice-core and Mediterranean marine records: insights from high-precision 40Ar/39Ar dating of the Green Tuff of Pantelleria, Sicily Strait

Scaillet

Vita-Scaillet

Rotolo

2013

Quaternary Science Reviews

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International audienceWith the advent of annually-resolved polar ice records extending back to 70 ka, marine and continental paleoclimate studies have now matured into a discipline where high-quality age control is essential for putting on an equal pace layer-counted timescale models and Late Quaternary sedimentary records. High-resolution U-Th dating of speleothem records and 40Ar/39Ar dating of globally recorded geomagnetic excursions have recently improved the time calibration of Quaternary archives, reflecting the cross-disciplinary effort made to synchronize the geologic record at the millennial scale. Yet, tie-points with such an absolute age control remain scarce for paleoclimatic time-series extending beyond the radiocarbon timescale, most notably in the marine record. Far-travelled tephra layers recorded both onland and offshore provide an alternative in such instance to synchronize continental and marine archives via high-resolution 40Ar/39Ar dating of the parent volcanic eruption. High-resolution 40Ar/39Ar data are reported herein for one such volcanic marker, the Green Tuff of Pantelleria and its Y-6 tephra equivalent recorded throughout the Central and Eastern Mediterranean. Published radiochronometric and δ18O orbitally-tied ages for this marker horizon scatter widely from about 41 ka up to 56 ka. Our new 40Ar/39Ar age at 45.7 ± 1.0 ka (2σ) reveals that previous estimates are biased by more than their reported errors would suggest, including recent orbital tuning of marine records hosting the tephra bed that are reevaluated in the context of this study. This improved estimate enables potential phase lags and leads to be studied between deep-sea and terrestrial archives with unrivaled (near-millennial) 40Ar/39Ar precision in the marine record

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Section: Comparison With "mentioning

confidence: 94%

Section: The Green Tuff (Gt) Of Pantelleria and The Y-6 Ash Layermentioning

confidence: 99%

Section: Comparison With "mentioning

confidence: 99%

Section: Comparison With "mentioning

confidence: 99%

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Millennial-scale phase relationships between ice-core and Mediterranean marine records: insights from high-precision 40Ar/39Ar dating of the Green Tuff of Pantelleria, Sicily Strait

Scaillet

Vita-Scaillet

Rotolo

2013

Quaternary Science Reviews

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“…The bulk sediment composition is enriched in the terrigenous detrital matter [32] and several sapropelitic layers occur in the lowermost part of the sedimentary record [33,34]. Six tephra layers, associated to the Pantelleria island volcanic activity, have been identified [35]. The ODP1 tephra, corresponding to the Green Tuff and the Y-6 layer in the scheme of Keller et al [36] falls within the sedimentary sequence here selected.…”

Section: Methodsmentioning

confidence: 95%

Ten Years of Paleoceanographic Studies at ODP Site 963 (Central Mediterranean Sea)

Stefano

Incarbona

Sprovieri³

et al. 2014

TOPALOJ

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Abstract:The geographical location, the shape and the circulation pattern makes the Mediterranean Sea an ideal laboratory to study the interplay between different climatic systems, abrupt climate changes and the response of marine ecosystems. The Ocean Drilling Program Site 963 was drilled in the Northwestern part of the Sicily Channel, the sill that divides the western from the eastern Mediterranean Sea. Numerous papers have been published on Site 963 sediments in the last decade, investigating Mediterranean paleoceanographic themes. Here we offer a synthetic framework of these investigations carried out by sub-centennial resolution. We present the whole sequence of suborbital climatic oscillations over the last 130 kyr, that is since the last interglacial period, and we claim that teleconnection with Greenland and North Atlantic regions is the most likely phenomenon to explain our results. Furthermore we show the high sensitivity of marine planktonic (planktonic foraminifera and coccolithophores) ecosystems to Stadial/Interstadial fluctuations. We conclude that a three-steps scenario may describe productivity variations during each high-frequency oscillation, from Interstadial 24 to the last deglaciation (from 110 to 15 kiloyears ago): surface oligotrophy and a deep nutricline in the lower part of Interstadials; increased productivity, through a deep chlorophyll maximum and winter/spring coccolithophore blooms, during the upper part of Interstadials; a shallow nutricline during Stadials and possibly reduced productivity levels with respect to the upper Interstadial phase. Results from Site 963 investigations provide key information for very highresolution paleoceanographic research in the Mediterranean Sea.

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Towards a protocol for the trace element analysis of glass from rhyolitic shards in tephra deposits by laser ablation ICP‐MS

Pearce

2014

J Quaternary Science

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Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) is used widely to analyse single volcanic glass shards from Quaternary tephra deposits for stratigraphic correlation. As yet, no generally accepted protocol for these analyses exists and published methods report significant differences in crater size and calibration strategies. Using Ca as the internal standard' (Ca-I.S.), and not Si-I.S., for the analysis of rhyolitic glass can cause significant problems, because of ablation of (i) Ca-rich phenocrysts, notably ubiquitous' plagioclase, but also calcic-amphibole, apatite and allanite or (ii) mounting epoxy resin which can contribute to the Ca internal standard signal. Using Ca-I.S. can cause underreporting of many elements which concentrate in Ca-rich phenocrysts, making their ablation difficult to recognize, but when using Si-I.S., no such underreporting occurs. Additionally, larger ablation craters (50 mu m diameter) potentially incorporate even small volumes of phenocryst material, whereas smaller craters (Peer reviewe

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Major and trace element characterization of tephra layers offshore Pantelleria Island: insights into the last 200 ka of volcanic activity and contribution to the Mediterranean tephrochronology

Cited by 45 publications

References 58 publications

Millennial-scale phase relationships between ice-core and Mediterranean marine records: insights from high-precision 40Ar/39Ar dating of the Green Tuff of Pantelleria, Sicily Strait

Millennial-scale phase relationships between ice-core and Mediterranean marine records: insights from high-precision 40Ar/39Ar dating of the Green Tuff of Pantelleria, Sicily Strait

Ten Years of Paleoceanographic Studies at ODP Site 963 (Central Mediterranean Sea)

Towards a protocol for the trace element analysis of glass from rhyolitic shards in tephra deposits by laser ablation ICP‐MS

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