Your search keyword '"Giaccio, Biagio"' showing total 188 results

151. Duration and dynamics of the best orbital analogue to the present interglacial.

Author

Giaccio, Biagio, Regattieri, Eleonora, Zanchetta, Giovanni, Nomade, Sebastien, Renne, Paul R., Sprain, Courtney J., Drysdale, Russell N., Tzedakis, Polychronis C., Messina, Paolo, Scardia, Giancarlo, Sposato, Andrea, and Bassinot, Franck

Subjects

*INTERGLACIALS, *HOLOCENE paleoclimatology, *LAKE sediment analysis, *HYDROLOGICAL research, *HOLOCENE Epoch

Abstract

Past orbital analogues to the current interglacial, such as Marine Isotope Stage 19c (MIS 19c, ca. 800 ka), can provide reliable reference intervals for evaluating the timing and the duration of the Holocene and factors inherent in its climatic progression. Here we present the first high-resolution paleoclimatic record for MIS 19 anchored to a high-precision 40Ar/39Ar chronology, thus fully independent of any a priori assumptions on the orbital mechanisms underlying the climatic changes. It is based on the oxygen isotope compositions of Italian lake sediments showing orbital- to millennial-scale hydrological variability over the Mediterranean between 810 and 750 ka. Our record indicates that the MIS 19c interglacial lasted 10.8 ± 3.7 k.y., comparable to the time elapsed since the onset of the Holocene, and that the orbital configuration at the time of the following glacial inception was very similar to the present one. By analogy, the current interglacial should be close to its end. However, greenhouse gas concentrations at the time of the MIS 19 glacial inception were significantly lower than those of the late Holocene, suggesting that the current interglacial could have already been prolonged by the progressive increase of the greenhouse gases since 8-6 ka, possibly due to early anthropogenic disturbance of vegetation. [ABSTRACT FROM AUTHOR]

Published

2015

152. Holocene Paleoearthquakes and Early-Late Pleistocene Slip Rate on the Sulmona Fault (Central Apeninnes, Italy).

Author

Galli, Paolo, Giaccio, Biagio, Peronace, Edoardo, and Messina, Paolo

Subjects

EARTHQUAKES, GEOLOGIC faults, HOLOCENE paleoseismology, TEPHROCHRONOLOGY, RADIOCARBON dating

Abstract

The 23 km long Sulmona normal fault flanks the southwestern slope of the Mount Morrone range in the central Apennines. To date, the recent activity of this structure is uncertain, as the faulting evidence concerns only undated deposits and the fault cannot be associated with any of the strong historical earthquakes (Mw > 6.5) of the region. Our observation from ~ 1 Ma offset slope breccias, coupled with new tephrochronological data on faulted early Last Glacial lacustrine infilling of the Sulmona basin, implies a vertical slip rate of ~0.5 mm/yr over both the long term and middle term. Moreover, at the apex of a Late Pleistocene alluvial fan, radiocarbon dating of offset stratigraphy uncovered in four paleoseismological trenches shows that repeated earthquakes resulted in more than 4 m of vertical offset since ~9 ka, providing again a minimum Holocene vertical slip rate of ~0.5 mm/yr. In combination with the results of the trench exposure, we define four faulting events in the past ~9 ky B.P., and at least one before then. The most recent is constrained by robust radiocarbon dates as the middle of the second century A.D. The penultimate event was around the middle of the fifth millennium B.P., whereas the other two events are dated in a time between 8.5 ky to 6.5 ky B.P. and around 9 ky cal B.P. The oldest occurred before 9.5 ky B.P. As well as revealing the unexpected paleoseismic history of the Sulmona silent fault, our data provide a recurrence time for Mw >6.5 earthquakes of ~2.4 ky versus an elapsed time of ~ 1.85 ky since the last event. The latter matches with an earthquake previously hypothesized through archaeoseismic clues collected from several Roman settlements of the Sulmona Plain, all of which were dated to halfway through the second century A.D. [ABSTRACT FROM AUTHOR]

Published

2015

153. Ecosystem Impact of the Campanian Ignimbrite Eruption in Late Pleistocene Europe

Author

Fedele, Francesco G., primary, Giaccio, Biagio, additional, Isaia, Roberto, additional, and Orsi, Giovanni, additional

Published

2002

154. Late Quaternary fault movements in the Mt. Baldo-Lessini Mts sector of the Southalpine area (northern Italy)

Author

Galadini, Fabrizio, primary, Galli, Paolo, additional, Cittadini, Augusto, additional, and Giaccio, Biagio, additional

Published

2001

155. Extremely rapid directional change during Matuyama-Brunhes geomagnetic polarity reversal.

Author

Sagnotti, Leonardo, Scardia, Giancarlo, Giaccio, Biagio, Liddicoat, Joseph C., Nomade, Sebastien, Renne, Paul R., and Sprain, Courtney J.

Subjects

GEOMAGNETIC reversals, PALEOMAGNETISM, GEOMAGNETISM, GEOLOGICAL modeling, PHASE transitions

Abstract

We report a palaeomagnetic investigation of the last full geomagnetic field reversal, the Matuyama-Brunhes (M-B) transition, as preserved in a continuous sequence of exposed lacustrine sediments in the Apennines of Central Italy. The palaeomagnetic record provides the most direct evidence for the tempo of transitional field behaviour yet obtained for the M-B transition. 40Ar/39Ar dating of tephra layers bracketing the M-B transition provides high-accuracy age constraints and indicates a mean sediment accumulation rate of about 0.2 mm yr–1 during the transition. Two relative palaeointensity (RPI) minima are present in the M-B transition. During the terminus of the upper RPI minimum, a directional change of about 180 ° occurred at an extremely fast rate, estimated to be less than 2 ° per year, with no intermediate virtual geomagnetic poles (VGPs) documented during the transit from the southern to northern hemisphere. Thus, the entry into the Brunhes Normal Chron as represented by the palaeomagnetic directions and VGPs developed in a time interval comparable to the duration of an average human life, which is an order of magnitude more rapid than suggested by current models. The reported investigation therefore provides high-resolution integrated palaeomagnetic and radioisotopic data that document the fine details of the anatomy and tempo of the M-B transition in Central Italy that in turn are crucial for a better understanding of Earth's magnetic field, and for the development of more sophisticated models that are able to describe its global structure and behaviour. [ABSTRACT FROM AUTHOR]

Published

2014

156. Palaeoseismology of the L'Aquila faults (central Italy, 2009, Mw 6.3 earthquake): implications for active fault linkage.

Author

Galli, Paolo A.C., Giaccio, Biagio, Messina, Paolo, Peronace, Edoardo, and Zuppi, Giovanni Maria

Subjects

*PALEOSEISMOLOGY, *GEOLOGIC faults, *STRUCTURAL geology, *NEOTECTONICS, *RADIOCARBON dating, *LAST Glacial Maximum, *EARTHQUAKE hazard analysis

Abstract

SUMMARY Urgent urban-planning problems related to the 2009 April, Mw 6.3, L'Aquila earthquake prompted immediate excavation of palaeoseismological trenches across the active faults bordering the Aterno river valley; namely, the Mt. Marine, Mt. Pettino and Paganica faults. Cross-cutting correlations amongst existing and new trenches that were strengthened by radiocarbon ages and archaeological constraints show unambiguously that these three investigated structures have been active since the Last Glacial Maximum period, as seen by the metric offset that affected the whole slope/alluvial sedimentary succession up to the historical deposits. Moreover, in agreement with both 18th century accounts and previous palaeoseismological data, we can affirm now that these faults were responsible for the catastrophic 1703 February 2, earthquake ( Mw 6.7). The data indicate that the Paganica-San Demetrio fault system has ruptured in the past both together with the conterminous Mt. Pettino-Mt. Marine fault system, along more than 30 km and causing an Mw 6.7 earthquake, and on its own, along ca. 19 km, as in the recent 2009 event and in the similar 1461 AD event. This behaviour of the L'Aquila faults has important implications in terms of seismic hazard assessment, while it also casts new light on the ongoing fault linkage processes amongst these L'Aquila faults. [ABSTRACT FROM AUTHOR]

Published

2011

157. Timescales and cultural process at 40,000BP in the light of the Campanian Ignimbrite eruption, Western Eurasia

Author

Fedele, Francesco G., Giaccio, Biagio, and Hajdas, Irka

Subjects

*VOLCANIC eruptions, *RADIOCARBON dating, *IGNIMBRITE, *SOCIAL change, *SYNCHRONIZATION, *QUATERNARY stratigraphic geology

Abstract

Abstract: Significant new information shows that the Campanian Ignimbrite (CI) eruption from the Phlegrean Fields, southern Italy, was much larger than hitherto supposed and in fact one of the largest late Quaternary explosive events. The eruption can be dated to 40,000 calendar years ago, within the interval of the so-called Middle to Upper Paleolithic ‘transition’. Its position can be precisely correlated with a number of other environmental events, including Heinrich Event 4 (HE4), the Laschamp excursion, and a particular cosmogenic nuclide peak. In view of this unique combination of factors, we studied the CI volcanic catastrophe with particular attention to its impact on climate and human ecosystems, including potential interference with ongoing processes of cultural evolution (biological evolution is best left aside for the moment). The contribution of this research is chronological and ecological. The CI volcanic event provides an unequalled means of correlating stratigraphic sequences across Western Eurasia, either directly or indirectly, and affords a unique opportunity to establish the age and climatic context of important archaeological sequences. Ecologically, the CI eruption inevitably interacted with the beginning of HE4 in terms of atmospheric feedback systems. Their combined forcing produced a sudden and at least hemispheric climatic deterioration; a ‘volcanic winter’ scenario cannot be ruled out. Paleolithic occupation was severely altered throughout the direct-impact zone of the eruption and likely along fringe areas in southern and southeastern Europe. The above observations call for a reconsideration of the processes and rhythms involved in the Middle to Upper Paleolithic ‘transition’. A tentative model is suggested that links the exceptional environmental stress at 40,000BP with processes already active in Paleolithic societies, leading to a period of accelerated change in cultural configurations. These eventually evolved into an Upper Paleolithic proper at a later date. The evidence to invoke allochthonous cultural input or invasionist scenarios is not considered compelling. [Copyright &y& Elsevier]

Published

2008

158. Tephrochronological constraints on the timing and nature of sea-level change prior to and during glacial termination V.

Author

Giaccio, Biagio, Marino, Gianluca, Marra, Fabrizio, Monaco, Lorenzo, Pereira, Alison, Zanchetta, Giovanni, Gaeta, Mario, Leicher, Niklas, Nomade, Sébastien, Palladino, Danilo M., Sottili, Gianluca, Guillou, Hervé, and Scao, Vincent

Subjects

*CHEMICAL fingerprinting, *SEA level, *MELTWATER, *PLEISTOCENE Epoch, *VOLCANIC ash, tuff, etc., *SEA ice, *ALPINE glaciers

Abstract

Glacial-interglacial variations in ice volume and sea level are essential components of the Pleistocene global climate evolution. Deciphering the timing of change of these key climate parameters with respect to the insolation forcing is central to understanding the processes controlling glacial terminations. Here we exploit the sensitivity of the Paleo Tiber River (central Italy) to sea-level forced changes in the base level and the frequent occurrence of datable tephra layers in its sedimentary successions to reconstruct the timing of the relative sea-level (RSL) change between 450 and 403 ka, i.e., across the glacial termination (T-V) that marks the transition between Marine Isotope Stage (MIS) 12 and MIS 11. The analysis hinges on new stratigraphic data, tephra geochemical fingerprinting, and 40Ar/39Ar dating from a fluvial section that represents the inland counterpart of the near mouth, coastal aggradational successions of the San Paolo Formation (SPF). Tephra correlation indicates that the morpho-stratigraphic record of the inland section is as sensitive to the sea-level change as its coastal counterparts, which makes it ideal to complement previous RSL reconstructions from the Tiber River catchment basin, thereby providing a more detailed picture of the sea-level history across T-V. Combined sedimentological and morphological proxies of the composed inland-coastal SPF record document the occurrence of two phases of relatively rapid sea-level rise, here interpreted as meltwater pulse (MWP) events. The earlier MWP occurred between ∼450 and ∼445 ka and matches a relatively minor episode of the sea-level rise documented in an existing RSL record, while the younger MWP at ∼430 ka corresponds to the high amplitude sea-level rise that marks T-V. We find that both MWPs coincide with episodes of ice-rafted debris deposition in the North Atlantic (Heinrich-like events) and with attendant Southern Hemisphere warming, plausibly associated with the bipolar seesaw. • We reconstruct Relative Sea Level variations during transition from MIS 12 to MIS 11. • We outline two phases of relatively rapid sea level rise (meltwater pulses). • Meltwater pulses coincided with Heinrich-like events and with bipolar seesaw warming. • We underscore sensitivity of Roman aggradational successions to sea-level variations. [ABSTRACT FROM AUTHOR]

Published

2021

159. Central Mediterranean explosive volcanism and tephrochronology during the last 630 ka based on the sediment record from Lake Ohrid.

Author

Leicher, Niklas, Giaccio, Biagio, Zanchetta, Giovanni, Wagner, Bernd, Francke, Alexander, Palladino, Danilo M., Sulpizio, Roberto, Albert, Paul G., and Tomlinson, Emma L.

Subjects

*LASER ablation inductively coupled plasma mass spectrometry, *VOLCANISM, *TEPHROCHRONOLOGY, *VOLCANOLOGY

Abstract

Lake Ohrid, located in the Central Mediterranean region downwind of the Italian volcanoes, has great potential for developing a detailed record of the explosive activity of these volcanoes. Electron microprobe and Laser Ablation Inductively Coupled Plasma Mass Spectrometry geochemical analyses of juvenile glass fragments of previously not analysed tephra layers of the DEEP site sediment record of Lake Ohrid expand the existing tephrostratigraphy for the interval Marine Isotope Stages 1–16. The geochemical signatures of all tephra layers suggest an origin exclusively from the Italian volcanism. Eight of these tephra layers have potential equivalents in marine and terrestrial archives of the Central Mediterranean region (OH-DP-1966/SC5/A7; OH-DP-1955/CES1/A2; OH-DP-1055/S1; OH-DP-1006/S2; OH-DP-0997/S3, OH-DP-0710/S8/C-51; OH-DP-0766/ODP5/P-13; OH-DP-0505/ODP4). Nine tephra layers, which have not been described so far, help to reconstruct the late volcanic activity of Mount Vulture (OH-DP-2439) and the Paleovulsini (OH-DP-1998), the pre- and post Rio Rava activity of the Roccamonfina volcano (OH-DP-1911/-1812/-1733/-1640/-1527), the early activity of the Aeolian Arc (OH-DP-1513/-1520), and the Bracciano activity of the Monti Sabatini volcanic district (OH-DP-1175). The multi-proxy dataset and chronology of the DEEP site sediments allowed definition of the climatostratigraphic position for all tephra layers and constrain the ages of so far unknown and/or undated tephra layers. The presented data provide a crucial increase of knowledge of the Middle Pleistocene tephrostratigraphy in the Central Mediterranean back to 630 ka and allows new insights of the volcanic activity of Roccamonfina, the Roman Province, the Campanian Volcanic Zone (CVZ), the Aeolian Arc, Pantelleria, and Mount Vulture. • First continuous tephra record of the Central Mediterranean for the last 630 ka. • 16 tephra layers of the Lake Ohrid sediment record extend the Mediterranean tephrostratigraphic framework. • All tephra layers originate from explosive Italian volcanism. • Tephra layers provide new insights into Central Mediterranean explosive volcanism. • Ages for so far unknown tephra layers are provided by the Lake Ohrid age-depth model. [ABSTRACT FROM AUTHOR]

Published

2019

160. Extending the tephra and palaeoenvironmental record of the Central Mediterranean back to 430 ka: A new core from Fucino Basin, central Italy.

Author

Giaccio, Biagio, Leicher, Niklas, Mannella, Giorgio, Monaco, Lorenzo, Regattieri, Eleonora, Wagner, Bernd, Zanchetta, Giovanni, Gaeta, Mario, Marra, Fabrizio, Nomade, Sébastien, Palladino, Danilo M., Pereira, Alison, Scheidt, Stephanie, Sottili, Gianluca, Wonik, Thomas, Wulf, Sabine, Zeeden, Christian, Ariztegui, Daniel, Cavinato, Gian Paolo, and Dean, Jonathan R.

Subjects

*TEPHROCHRONOLOGY, *ADRENERGIC receptors, *VOLCANIC ash, tuff, etc., *GAMMA rays, *VOLCANIC eruptions, *INTERGLACIALS, *MAGNETIC susceptibility

Abstract

Here we present the first tephrostratigraphic, palaeomagnetic, and multiproxy data from a new ∼98 m-deep sediment core retrieved from the Fucino Basin, central Italy, spanning the last ∼430 kyr. Palaeoenvironmental proxy data (Ca-XRF, gamma ray and magnetic susceptibility) show a cyclical variability related to interglacial-glacial cycles since the Marine Isotope Stage (MIS) 12-MIS 11 transition. More than 130 tephra layers are visible to the naked eye, 11 of which were analysed (glass-WDS) and successfully correlated to known eruptions and/or other equivalent tephra. In addition to tephra already recognised in the previously investigated cores spanning the last 190 kyr, we identified for the first time tephra from the eruptions of: Tufo Giallo di Sacrofano, Sabatini (288.0 ± 2.0 ka); Villa Senni, Colli Albani (367.5 ± 1.6 ka); Pozzolane Nere and its precursor, Colli Albani (405.0 ± 2.0 ka, and 407.1 ± 4.2 ka, respectively) and Castel Broco, Vulsini (419–490 ka). The latter occurs at the bottom of the core and has been 40Ar/39Ar dated at 424.3 ± 3.2 ka, thus providing a robust chronological constrain for both the eruption itself and the base of the investigated succession. Direct 40Ar/39Ar dating and tephra geochemical fingerprinting provide a preliminary radioisotopic-based chronological framework for the MIS 11-MIS 7 interval, which represent a foundation for the forthcoming multiproxy studies and for investigating the remaining ∼110 tephra layers that are recorded within this interval. Such future developments will contribute towards an improved MIS 11-MIS 7 Mediterranean tephrostratigraphy, which is still poorly explored and exploited. • A new core from the Fucino lacustrine succession, central Italy, has been recovered. • A composite tephra record including 130 tephra layers has been built. • A preliminary chronological framework for the new Fucino core is provided. • The new core extends the central Italy tephra record back to 430 ka. • Fucino is confirmed to be the most promising tephra archive of the Mediterranean. [ABSTRACT FROM AUTHOR]

Published

2019

161. Mediterranean winter rainfall in phase with African monsoons during the past 1.36 million years

Author

Wagner, Bernd, Vogel, Hendrik, Francke, Alexander, Friedrich, Tobias, Donders, Timme, Lacey, Jack H., Leng, Melanie J., Regattieri, Eleonora, Sadori, Laura, Wilke, Thomas, Zanchetta, Giovanni, Albrecht, Christian, Bertini, Adele, Combourieu-Nebout, Nathalie, Cvetkoska, Aleksandra, Giaccio, Biagio, Grazhdani, Andon, Hauffe, Torsten, Holtvoeth, Jens, Joannin, Sebastien, Jovanovska, Elena, Just, Janna, Kouli, Katerina, Kousis, Ilias, Koutsodendris, Andreas, Krastel, Sebastian, Lagos, Markus, Leicher, Niklas, Levkov, Zlatko, Lindhorst, Katja, Masi, Alessia, Melles, Martin, Mercuri, Anna M., Nomade, Sebastien, Nowaczyk, Norbert, Panagiotopoulos, Konstantinos, Peyron, Odile, Reed, Jane M., Sagnotti, Leonardo, Sinopoli, Gaia, Stelbrink, Björn, Sulpizio, Roberto, Timmermann, Axel, Tofilovska, Slavica, Torri, Paola, Wagner-Cremer, Friederike, Wonik, Thomas, and Zhang, Xiaosen

Subjects

13. Climate action, 550 Earth sciences & geology

Abstract

Mediterranean climates are characterized by strong seasonal contrasts between dry summers and wet winters. Changes in winter rainfall are critical for regional socioeconomic development, but are difficult to simulate accurately1 and reconstruct on Quaternary timescales. This is partly because regional hydroclimate records that cover multiple glacial–interglacial cycles2,3 with different orbital geometries, global ice volume and atmospheric greenhouse gas concentrations are scarce. Moreover, the underlying mechanisms of change and their persistence remain unexplored. Here we show that, over the past 1.36 million years, wet winters in the northcentral Mediterranean tend to occur with high contrasts in local, seasonal insolation and a vigorous African summer monsoon. Our proxy time series from Lake Ohrid on the Balkan Peninsula, together with a 784,000-year transient climate model hindcast, suggest that increased sea surface temperatures amplify local cyclone development and refuel North Atlantic low-pressure systems that enter the Mediterranean during phases of low continental ice volume and high concentrations of atmospheric greenhouse gases. A comparison with modern reanalysis data shows that current drivers of the amount of rainfall in the Mediterranean share some similarities to those that drive the reconstructed increases in precipitation. Our data cover multiple insolation maxima and are therefore an important benchmark for testing climate model performance.

162. Frequency and dynamics of millennial-scale variability during Marine Isotope Stage 19: Insights from the Sulmona Basin (central Italy)

Author

Regattieri, Eleonora, Giaccio, Biagio, Mannella, Giorgio, Zanchetta, Giovanni, Nomade, Sebastien, Tognarelli, Andrea, Perchiazzi, Natale, Vogel, Hendrik, Boschi, Chiara, Drysdale, Russell Neil, Wagner, Bernd, Gemelli, Maurizio, and Tzedakis, Polichronis

Subjects

13. Climate action, 550 Earth sciences & geology, 14. Life underwater

Abstract

Among past interglacial periods, Marine Isotope Stage (MIS) 19 is particularly interesting because its orbital geometry is very similar to that of the present interglacial. Here we present a high-resolution (sub-centennial) multiproxy record covering the ca. 790-770 ka interval, i.e. the interglacial MIS 19c and the ensuing glacial inception of MIS 19b, from a lacustrine sediment sequence retrieved from the Sulmona Basin (central Italy). The record has an independent chronology based on radiometric dating of six volcanic ash layers, and the resulting age model has a mean associated uncertainty of ±2.6 kyr. Variations in sediment geochemistry and mineralogy are interpreted in terms of past hydrological and temperature changes. Several millennial and sub-millennial events of reduced precipitation are well expressed. Comparisons with continental and marine records from the mid-latitude and sub-polar North Atlantic suggest a broad spatial expression for the observed events. Events occurring within the interglacial are not clearly associated with changes in marine proxies in the Iberian Margin, although similarities with the record from the sub-polar North Atlantic can be recognized and tentatively linked to changes in local hydrography having a downstream effect amplified by changes in atmospheric circulation. During the glacial inception, changes in the Sulmona record are coherent with changes in North Atlantic records, with drier events likely associated with meltwater-induced intervals of AMOC weakening. An event at ca. 785.6 ka may also reflect oceanic changes caused by freshwater discharges from residual ice-sheets and an outburst flood, similar to the 8.2 ka event in the Holocene.

163. High-precision 14C and 40Ar/39 Ar dating of the Campanian Ignimbrite (Y-5) reconciles the time-scales of climatic-cultural processes at 40 ka

Author

Giaccio, Biagio, Hajdas, Irka, Isaia, Roberto, Deino, Alan, and Nomade, Sebastien

Subjects

FOS: History and archaeology, 13. Climate action, Archaelogy, Volcanology

Abstract

The Late Pleistocene Campanian Ignimbrite (CI) super-eruption (Southern Italy) is the largest known volcanic event in the Mediterranean area. The CI tephra is widely dispersed through western Eurasia and occurs in close stratigraphic association with significant palaeoclimatic and Palaeolithic cultural events. Here we present new high-precision 14C (34.29 ± 0.09 14C kyr BP, 1σ) and 40Ar/39Ar (39.85 ± 0.14 ka, 95% confidence level) dating results for the age of the CI eruption, which substantially improve upon or augment previous age determinations and permit fuller exploitation of the chronological potential of the CI tephra marker. These results provide a robust pair of 14C and 40Ar/39Ar ages for refining both the radiocarbon calibration curve and the Late Pleistocene time-scale at ca. 40 ka. In addition, these new age constraints provide compelling chronological evidence for the significance of the combined influence of the CI eruption and Heinrich Event 4 on European climate and potentially evolutionary processes of the Early Upper Palaeolithic., Scientific Reports, 7, ISSN:2045-2322

164. Palaeo-environmental reconstruction of the Mercure Basin (Basilicata region) during MIS 13, through a multi-proxy analysis of lacustrine sediments

Author

Chiellini, Matteo, Giovanni Zanchetta, Regattieri, Eleonora, Giaccio, Biagio, NATALE PERCHIAZZI, and Boschi, Chiara

Subjects

Multi-proxy, Archeology (arts and humanities), Mediterranean, Palaeoclimate, Palaeoenvironment, Stable isotopes, Geology, Earth-Surface Processes, Paleontology, multi-proxy, stable isotopes, palaeoenvironment, palaeoclimate

Abstract

The main purpose of this work is to make a first evaluation of the potential of the carbonate lacustrine sediment of the Mercure Basin (Basilicata region), to preserve palaeoclimatic information during the Middle Pleistocene. For this purpose a multi-proxy analysis of the lacustrine sediments from a selected section of the basin was undertaken. The selected section contains several tephra layers, which constrains the timing of deposition to MIS 13. Stable isotopes (oxygen and carbon) and element content were tentatively interpreted as linked to climatic changes giving interesting results for this poorly studied interval.

165. Pedo-tephrostratigraphic context of Palaeo-Mesolithic occurrences at Frigento, Hirpinia (Campanian Apennine)

Author

Fedele, Francesco, Giaccio, Biagio, Isaia, Roberto, Fedele, Francesco, Giaccio, Biagio, and Isaia, Roberto

Abstract

Pour la première fois, nous avons établi à Frigento (Avellino) un cadre stratigraphique pour quelques sites paléolithiques et probablement mésolithiques de l’Apennin campanien. La connaissance du peuplement paléolithique des montagnes de l’Italie du Sud est demeurée jusqu’à présent très modeste. En 2006, un projet géoarchéologique a permis d’identifier une stratification dans laquelle quatre unités pédologiques principales étaient intercalées avec six couches de téphra du Pléistocène supérieur et de l’Holocène. La même stratigraphie comprenait cinq niveaux archéologiques caractérisés par des outillages du Paléolithique moyen et terminal et/ou mésolithiques. La composante paléolithique terminale/mésolithique révèle des affinités avec les phases récentes des industries de l’Epigravettien “italique” central et méridional. Ces éléments étaient inconnus en Campanie. La technologie lithique est liée à la proximité d’affleurements de schistes argileux pietra di Frigento.

166. Pedo-tephrostratigraphic context of Palaeo-Mesolithic occurrences at Frigento, Hirpinia (Campanian Apennine)

Author

Fedele, Francesco, Giaccio, Biagio, Isaia, Roberto, Fedele, Francesco, Giaccio, Biagio, and Isaia, Roberto

Abstract

Pour la première fois, nous avons établi à Frigento (Avellino) un cadre stratigraphique pour quelques sites paléolithiques et probablement mésolithiques de l’Apennin campanien. La connaissance du peuplement paléolithique des montagnes de l’Italie du Sud est demeurée jusqu’à présent très modeste. En 2006, un projet géoarchéologique a permis d’identifier une stratification dans laquelle quatre unités pédologiques principales étaient intercalées avec six couches de téphra du Pléistocène supérieur et de l’Holocène. La même stratigraphie comprenait cinq niveaux archéologiques caractérisés par des outillages du Paléolithique moyen et terminal et/ou mésolithiques. La composante paléolithique terminale/mésolithique révèle des affinités avec les phases récentes des industries de l’Epigravettien “italique” central et méridional. Ces éléments étaient inconnus en Campanie. La technologie lithique est liée à la proximité d’affleurements de schistes argileux pietra di Frigento.

167. High-precision 14C and 40Ar/39Ar dating of the Campanian Ignimbrite (Y-5) reconciles the time-scales of climatic-cultural processes at 40 ka.

Author

Giaccio, Biagio, Hajdas, Irka, Isaia, Roberto, Deino, Alan, and Nomade, Sebastien

Abstract

The Late Pleistocene Campanian Ignimbrite (CI) super-eruption (Southern Italy) is the largest known volcanic event in the Mediterranean area. The CI tephra is widely dispersed through western Eurasia and occurs in close stratigraphic association with significant palaeoclimatic and Palaeolithic cultural events. Here we present new high-precision 14C (34.29 ± 0.09 14C kyr BP, 1σ) and 40Ar/39Ar (39.85 ± 0.14 ka, 95% confidence level) dating results for the age of the CI eruption, which substantially improve upon or augment previous age determinations and permit fuller exploitation of the chronological potential of the CI tephra marker. These results provide a robust pair of 14C and 40Ar/39Ar ages for refining both the radiocarbon calibration curve and the Late Pleistocene time-scale at ca. 40 ka. In addition, these new age constraints provide compelling chronological evidence for the significance of the combined influence of the CI eruption and Heinrich Event 4 on European climate and potentially evolutionary processes of the Early Upper Palaeolithic. [ABSTRACT FROM AUTHOR]

Published

2017

168. Setting the basis for a high-resolution record of the late Quaternary to present climate variability from Castiglione maar, central Italy: First results from AMUSED project.

Author

Macrì, Patrizia, Smedile, Alessandra, Minelli, Liliana, Siravo, Gaia, Caricchi, Chiara, Scateni, Bianca, Di Roberto, Alessio, Re, Giuseppe, Nicolosi, Iacopo, D'Ajello Caracciolo, Francesca, and Giaccio, Biagio

Subjects

*CLIMATE change, *EXPLOSIVE volcanic eruptions, *CHEMICAL fingerprinting, *ELECTRICAL resistivity, *MAGNETIC susceptibility, *VOLCANIC ash, tuff, etc.

Abstract

The AMUSED (A MUltidisciplinary Study of past global climatE changes from continental and marine archives in the MeDiterranean region) project aims at improving knowledge of late Quaternary climate variability and its expressions in different geological settings of the Mediterranean region. In this framework, the Castiglione maar, in the Colli Albani Volcanic District, central Italy, was selected for acquiring a high-resolution and geochronologically well-constrained multi-proxy record by drilling the entire lacustrine succession. Electrical Resistivity Tomography (ERT) profiles were acquired across the central portion and the SW crater edge to depict the geometry of the sedimentary infilling and select the best drilling site. Two parallel cores (C1 and C2), 116 m- and 126.5 m-depth respectively, were recovered from the central sector of the Castiglione basin, where, according to ERT profiles, the sedimentary succession reaches the maximum thickness. The sedimentary infilling consists of fine-grained sediments: mainly fine sand, silt and clay, with minor gravel intervals and numerous tephra layers and volcaniclastic lenses. Specifically, more than 60 tephras were identified and used, alongside other lithostratigraphic features, to correlate the C1 and C2 cores and to assemble a composite section. The variability in magnetic susceptibility, led by glacial-interglacial cycles, and the geochemical fingerprinting of key tephra layers allowed to establish a preliminary chronological framework for the Castiglione succession which certainly spans the last 365 ka, with a mean sedimentation rate of 0.33 mm/yr. The relatively long time span of the Castiglione maar succession arises as a new potentially meaningful node of the network of Mediterranean records for better reconstructing the late Quaternary climate dynamics on a regional and extra-regional scale. [ABSTRACT FROM AUTHOR]

Published

2023

169. Middle Pleistocene (MIS 14) environmental conditions in the central Mediterranean derived from terrestrial molluscs and carbonate stable isotopes from Sulmona Basin (Italy).

Author

Zanchetta, Giovanni, Bini, Monica, Giaccio, Biagio, Manganelli, Giuseppe, Benocci, Andrea, Regattieri, Eleonora, Colonese, Andre C., Boschi, Chiara, and Biagioni, Cristian

Subjects

*MOLLUSK ecology, *CARBONATES, *PLEISTOCENE Epoch, *STABLE isotopes, *GEOLOGICAL basins, ENVIRONMENTAL aspects

Abstract

A paleosol from the Middle Pleistocene lacustrine-fluvial succession of Sulmona Basin, central Italy, was analysed for the land snail shell content, and the stable isotope composition of the shells and associated pedogenic carbonates. The paleosol – known as Fiorata Paleosol – is covered by a thick tephra layer dated to ca. 527 ka allowing the pedogenetic horizons to be correlated to the marine isotope stage (MIS) 14-early MIS 13 interval. The terrestrial mollusc assemblage contained few individuals and was characterized by a low number of species which predominantly indicate open and dry habitats, thus suggesting that Fiorata Paleosol likely developed during glacial conditions of the MIS 14. The δ 13 C values of pedogenic carbonates and terrestrial shells indicate prevailing C 3 -type vegetation, probably marked by some degree of water stress. Calculation of the δ 18 O precipitation values, derived from pedogenic carbonates and shell δ 18 O values, indicate that the average temperature was 3–5 °C lower than present day. This study highlights how paleosols, despite offering only snapshots of past climate and environments, provide valuable complementary information to paleoclimatic data obtained in the adjacent lacustrine intervals, specifically for the Sulmona successions. [ABSTRACT FROM AUTHOR]

Published

2017

170. Influence of changing water mass circulation on detrital component and carbon burial of late Pleistocene and Holocene sediments in the eastern-central Mid-Adriatic deep.

Author

Razum, Ivan, Hasan, Ozren, Brunović, Dea, Schulz, Hartmut, Ilijanić, Nikolina, Beg Paklar, Gordana, Ramisch, Arne, Giaccio, Biagio, Šparica Miko, Martina, Monaco, Lorenzo, and Miko, Slobodan

Subjects

*WATER masses, *LAST Glacial Maximum, *PLEISTOCENE Epoch, *HOLOCENE Epoch, *YOUNGER Dryas

Abstract

A sediment core was retrieved in the eastern-central Mid-Adriatic Deep (MAD) to study the changes in the water mass circulation and their effect on carbon burial efficiency and the provenance of a detrital sediment component. An age-depth model of the sediment core POS-514-40-11 is based on radiocarbon dating and tephrochronology. Two tephra were correlated to the Neapolitan Yellow Tuff and Pomici di Mercato eruptions, extending the previously known distribution of Pomici di Mercato tephra. Based on the analysis of heavy mineral (HM) assemblages throughout the core, for the first time the occurrence of Eastern Adriatic current (EAC) was estimated at ca. 15 ka BP, i.e., at the beginning of the post last glacial maximum (LGM) transgression. During the late Pleistocene, the detrital component was dominated by Paleo-Po river sediments, which gradually shifted toward the Albanian province as a basin-wide counterclockwise circulation was established. Mass accumulation rates of organic carbon (OC), stable isotopes of carbon (δ 13C) and nitrogen (δ 15N) as well as C/N ratios, showed that carbon burial was affected by sea level rise and climatic changes. Climatic effects are observed during cold periods i.e., the Younger Dryas and the 8.4–7.9 ka cold period when terrestrial OC was dominant. In the latter case dominance of terrestrial carbon was due to the North Adriatic dense water (NAddW) influence. On the other hand, sea level rise increased MAD distance from the main river mouths/deltas, resulting in decreased influx of terrestrial organic carbon and lower accumulation rates of organic carbon in general. This reconstruction of the oceanographic setting is valuable considering that the Adriatic Sea is one of the key locations for the formation of DW and thus affects the overall Mediterranean circulation. • Dating of the present oceanographic setting in the Adriatic Sea. • Change in the provenance of detrital component is induced by changes in oceanographic settings. • Climate change and sea level rise affect the composition of organic matter. • Extension of Pomici di Mercato tephra boundaries. [ABSTRACT FROM AUTHOR]

Published

2024

171. Climate, vegetation, and environmental change during the MIS 12-MIS 11 glacial-interglacial transition inferred from a high-resolution pollen record from the Fucino Basin of central Italy.

Author

Vera-Polo, Pablo, Sadori, Laura, Jiménez-Moreno, Gonzalo, Masi, Alessia, Giaccio, Biagio, Zanchetta, Giovanni, Tzedakis, P. Chronis, and Wagner, Bernd

Abstract

Glacial Termination V (T-V) comprised a relatively rapid shift from glacial to interglacial conditions (MIS 12 glacial to the MIS 11c); it was one of the greatest climatic changes of the Pleistocene, and forms part of the major climatic reorganization known as the Mid-Brunhes Event (MBE). The Fucino Basin, located in the Central Apennine chain of central Italy, contains a continuous and well-preserved lacustrine sedimentary record of T-V and MIS 11, dated using tephrochronology. In this paper, we report a high-resolution palynological analysis, supported by geochemical proxies, from the lowermost section of the F4-F5 composite record, to improve understanding of T-V in this region. This record reveals a substantial transition between MIS 12 and MIS 11c at 424.5 ± 4.0 ka, from a very cold and dry environment indicated by the herbaceous and xerophytic association of Poaceae, Artemisia , Amaranthaceae, Ephedra , and Hippophäe , and sedimentation dominated by inorganic siliciclastic sediments, to a warm and humid period characterised by a significant increase in Abies and a deciduous tree association mainly formed by Betula, Carpinus , Corylus, Quercus , Ulmus, and dominated by more organic calcareous sediments. This transition was correlated with a significant lake-level rise, with an enhanced nutrient input into the lake between 425.0 ± 4.5 ka and 424.0 ± 3.9 ka, as inferred from the variance between algae, aquatic plants, and terrestrial herbaceous taxa. Following the MIS 11c temperature maximum at 424.2 ± 3.9 ka, a reduction in summer insolation occurred, provoking a significant increase in humidity that produced the widespread development of Abies. The results from this study suggest that, at Fucino, fluctuations in humidity are predominantly responsible for the vegetation changes observed during T-V. • Fucino pollen record shows vegetation changes from late MIS 12 to early MIS 11c. • A strong change in vegetation occurred at the beginning of the MIS 11c in Mediterranean region. • Vegetation dynamics were more affected by precipitation than temperature in Fucino Basin. • Fucino Basin and Lake Ohrid show similar vegetation/climate changes during the studied period. • Quantitative centennial-scale climate variability was reconstructed for Fucino Basin. [ABSTRACT FROM AUTHOR]

Published

2024

172. Grotta Grande (southern Italy). Disentangling the Neandertal and carnivore interaction in a short-term palimpsest at the last glacial onset (∼116-109 ka).

Author

Spagnolo, Vincenzo, Crezzini, Jacopo, Falguères, Christophe, Tombret, Olivier, Garbe, Lisa, Bahain, Jean-Jacques, Giaccio, Biagio, Arrighi, Simona, Aureli, Daniele, Eckberg, Isak, Boscato, Paolo, Ronchitelli, Annamaria, and Boschin, Francesco

Subjects

*NEANDERTHALS, *CARNIVOROUS animals, *PALIMPSESTS, *SEQUENCE stratigraphy, *GEOGRAPHIC information systems, *TAPHONOMY

Abstract

The Mousterian of the Grotta Grande (Southern Italy) is here subject to new dating, which provide a surprisingly high-resolution on the stratigraphic sequence. Overall, the deposit in the Trench F appears framed in the MIS 5, into a brief chronological time span immediately after the Last Interglacial, between ∼116 ka and 109 ka. Significant archaeological evidence has been found in this sector on the cave, consisting in two high-resolution archaeological records (layers 8 and 6) with evidence of anthropic organization of the space, involving possible constructed features, use of fire and, possibly, different activity areas. Here we focus on the layer 8, excavated for 10.5 m2, which returned an intriguing entanglement of human and carnivore evidence. An interdisciplinary approach based on the pivotal role of spatial taphonomy, as meeting point of zooarchaeology, lithic technology, lithic traceology and spatial archaeology, has been applied. Beyond the recognition of the two main components in the formation of the context (the human and carnivore agency), the results allow to recognize its very good preservation state. Moreover, the reciprocal interaction between Neandertal and spotted hyena has been hypothesized, reconstructing the meaning of their presence at the site. More specifically, a Neandertal camp would have been followed, immediately after its abandonment, by scavenging activities of the spotted hyena, profiteering of resources with food interest for its diet left in the site. This human/carnivore sequence contribute to shed new light on the taphonomy issues on Quaternary sites. • Evidence of human/carnivore interaction from a MIS 5 context in Southern Italy. • Short-term context dated to 116-109 ka by direct regional radiometric chronology. • High-resolution and interdisciplinary analysis of the taphonomic evidence. • Zooarchaeology, lithic technology and traceology powered with a GIS approach. • A Neandertal camp followed by a scavenging activity by spotted hyena identified. [ABSTRACT FROM AUTHOR]

Published

2024

173. An overview of Alpine and Mediterranean palaeogeography, terrestrial ecosystems and climate history during MIS 3 with focus on the Middle to Upper Palaeolithic transition.

Author

Badino, Federica, Pini, Roberta, Ravazzi, Cesare, Margaritora, Davide, Arrighi, Simona, Bortolini, Eugenio, Figus, Carla, Giaccio, Biagio, Lugli, Federico, Marciani, Giulia, Monegato, Giovanni, Moroni, Adriana, Negrino, Fabio, Oxilia, Gregorio, Peresani, Marco, Romandini, Matteo, Ronchitelli, Annamaria, Spinapolice, Enza E., Zerboni, Andrea, and Benazzi, Stefano

Subjects

*GREENLAND ice, *SPELEOTHEMS, *ICE cores, *VEGETATION patterns, *CLIMATOLOGY, *GEOMORPHOLOGY, *PALEOGEOGRAPHY

Abstract

This paper summarizes the current state of knowledge about the millennial scale climate variability characterizing Marine Isotope Stage 3 (MIS 3) in S-Europe and the Mediterranean area and its effects on terrestrial ecosystems. The sequence of Dansgaard-Oeschger events, as recorded by Greenland ice cores and recognizable in isotope profiles from speleothems and high-resolution palaeoecological records, led to dramatic variations in glacier extent and sea level configuration with major impacts on the physiography and vegetation patterns, both latitudinally and altitudinally. The recurrent succession of (open) woodlands, including temperate taxa, and grasslands with xerophytic elements, have been tentatively correlated to GIs in Greenland ice cores. Concerning colder phases, the Greenland Stadials (GSs) related to Heinrich events (HEs) appear to have a more pronounced effect than other GSs on woodland withdrawal and xerophytes expansion. Notably, GS 9-HE4 phase corresponds to the most severe reduction of tree cover in a number of Mediterranean records. On a long-term scale, a reduction/opening of forests throughout MIS 3 started from Greenland Interstadials (GIs) 14/13 (ca. 55–48 ka), which show a maximum in woodland density. At that time, natural environments were favourable for Anatomically Modern Humans (AMHs) to migrate from Africa into Europe as documented by industries associated with modern hominin remains in the Levant. Afterwards, a variety of early Upper Palaeolithic cultures emerged (e.g., Uluzzian and Proto-Aurignacian). In this chronostratigraphic framework, attention is paid to the Campanian Ignimbrite tephra marker, as a pivotal tool for deciphering and correlating several temporal-spatial issues crucial for understanding the interaction between AMHs and Neandertals at the time of the Middle to Upper Palaeolithic transition. [ABSTRACT FROM AUTHOR]

Published

2020

174. Neanderthal bones collected by hyena at Grotta Guattari, central Italy, 66–65 ka: U/Th chronology and paleoenvironmental setting.

Author

Rolfo, Mario Federico, Bini, Monica, Di Mario, Francesco, Ferracci, Angelica, Giaccio, Biagio, Hsun-Ming, Hu, Isola, Ilaria, Sadori, Laura, Shen, Chuan-Chou, Vignola, Cristiano, and Zanchetta, Giovanni

Subjects

*NEANDERTHALS, *ARCHAEOLOGICAL human remains, *POLLEN, *HISTORICAL chronology, *SPELEOTHEMS

Abstract

After eight decades since its discovery in 1939, new investigations have been undertaken at Grotta Guattari (Latium, central Italy), a coastal cave by the Tyrrhenian Sea coast and one of the iconic sites of the Italian prehistory, as it yielded an almost complete skull and other remains of Neanderthals. The new excavations of the innermost and untouched cave deposits resulted in an outstanding amount of mammal bones, 40 out of which attributable to Neanderthal, including new large portions of cranial remains. Preliminary taphonomic hints and the collected stratigraphic evidence strongly indicate that the impressive accumulation of the large mammal bones was the work of spotted hyena, in a period in which human frequentation was really sporadic or even completely absent. The new acquired U/Th chronology of Grotta Guattari speleothems provided new constraints for reconstructing the sedimentary and paleoenvironmental history of the archaeological successions and human remains. The accumulation of terrestrial sediments started at ∼112 ka, immediately after the end of the Last Interglacial sea-level highstand (∼116 ka). However, the hyena frequentation, and thus the bone accumulations, occurred several thousands of years after and lasted for a very short time interval, precisely between slightly before 66 ka and 65 ka. The cave became abandoned by hyena after ∼65 ka and before ∼59 ka, because of the cave obstruction and/or the altered environmental conditions related to the Heinrich Event 6 (∼64–60 ka). The regional paleoclimatic records indicate severe conditions during the short interval of the hyena frequentation. In contrast, though providing evidence of open and arid environments, the faunal assemblage and the pollen from Grotta Guattari reveal that the local conditions were less severe, likely because of the mitigating effect of the Tyrrhenian Sea. In the framework of the Italian findings, Grotta Guattari results the richest and better chronologically constrained site of Neanderthal remains, posing it as one of the rare sites of the European prehistory that allows putting into the context an extraordinary large sample of the population of Neanderthals, and of other large mammals, in a very narrow and precisely dated temporal interval of the early Pleniglacial. • Hyena accumulated mammal bones, including Neanderthal, in Guattari Cave. • U/Th chronology dates the hyena occupation during the brief interval of 66–65 ka. • The glacial conditions at 66–65 ka were locally mitigated by the proximity of the sea. • Guattari arises as the richest and better dated Italian site of Neanderthal remains. [ABSTRACT FROM AUTHOR]

Published

2023

175. Environmental variability between the penultimate deglaciation and the mid Eemian: Insights from Tana che Urla (central Italy) speleothem trace element record.

Author

Regattieri, Eleonora, Zanchetta, Giovanni, Drysdale, Russell N., Isola, Ilaria, Woodhead, Jon D., Hellstrom, John C., Giaccio, Biagio, Greig, Alan, Baneschi, Ilaria, and Dotsika, Elissavet

Subjects

*GLACIAL melting, *EEMIAN Interglacial Stage, *SPELEOTHEMS, *TRACE element analysis

Abstract

A trace element record (Mg, Sr, Ba, Al, Si, P, Y, Zn) covering the ca. 133 ka to ca. 124 ka time interval was acquired from a flowstone core from Tana che Urla Cave (central Italy). It was compared with stable isotope data to investigate the environmental evolution in response to regional and extra-regional climate changes in the period corresponding to the latter part of the Penultimate Deglaciation and the first part of the Last Interglacial (Eemian). Trace element geochemical changes on centennial and millennial time scales responded to changes in hydrological input, variations in the supply and transport of catchment erosion products to the cave, including those linked to intense rainfall events, and to the state of the overlying soil and vegetation. Abrupt increases in precipitation and the progressive development of soil and vegetation occurred at ca. 132 ka, in response to the development of the global deglacial phase. The major changes in trace element composition are coherent with the previous hydrological interpretation of speleothem oxygen stable isotope composition (δ 18 O) as predominantly a rainfall-amount proxy. However, reduced growth rate persisted until ca. 130 ka, suggesting still depressed temperatures. An abrupt event of climatic deterioration, with marked decrease in precipitation and soil degradation, is apparent between ca. 131 and 130 ka. Cool-wet conditions between ca. 132 and 131 ka and the subsequent dry period may represent the local hydrological response to an interval of North Atlantic cooling and ice-rafted-debris (IRD) deposition known as Heinrich event 11 (H11). After 129.6 ka there was a rapid recovery according to all of the studied speleothem properties, indicating the onset of full interglacial conditions. A minor amplitude event of reduced precipitation is recorded within the LIG at ca. 127 ka. The record highlights the growing regional evidence for a complex penultimate deglacial climate involving major reorganization of oceanic and atmospheric patterns. [ABSTRACT FROM AUTHOR]

Published

2016

176. A MIS 15-MIS 12 record of environmental changes and Lower Palaeolithic occupation from Valle Giumentina, central Italy.

Author

Villa, Valentina, Pereira, Alison, Chaussé, Christine, Nomade, Sébastien, Giaccio, Biagio, Limondin-Lozouet, Nicole, Fusco, Fabio, Regattieri, Eleonora, Degeai, Jean-Philippe, Robert, Vincent, Kuzucuoglu, Catherine, Boschian, Giovanni, Agostini, Silvano, Aureli, Daniele, Pagli, Marina, Bahain, Jean Jacques, and Nicoud, Elisa

Subjects

*SEDIMENTOLOGY, *STABLE isotope analysis, *GEOCHEMISTRY, *PALEOLITHIC Period, *TEPHROCHRONOLOGY, *ALPINE glaciers, *SOIL formation

Abstract

An integrated geological study, including sedimentology, stable isotope analysis (δ 18 O, δ 13 C), geochemistry, micromorphology, biomarker analysis, 40 Ar/ 39 Ar geochronology and tephrochronology, was undertaken on the Quaternary infill of the Valle Giumentina basin in Central Italy, which also includes an outstanding archaeological succession, composed of nine human occupation levels ascribed to the Lower and Middle Palaeolithic. 40 Ar/ 39 Ar dating, and other palaeoenvironmental and tephrochronological data, constrain the sedimentary history of the whole succession to the MIS 15-MIS 12 interval, between 618 ± 13 ka and 456 ± 2 ka. Palaeoenvironmental proxies suggest that over this time interval of about 150 ka, sedimentary and pedogenic processes were mainly influenced by climatic changes, in particular by the pulsing of local mountain glaciers of the Majella massif. Specifically, the Valle Giumentina succession records glacio-fluvial and lacustrine sedimentation during the colder glacial periods and pedogenesis and/or alluvial sedimentation during the warmer interglacial and/or interstadial periods. During this interval, tectonics played a negligible role as a driving factor of local morphogenesis and sedimentation, whereas the general regional uplift experienced in the Middle Pleistocene led to capture of the basin and its definitive extinction after MIS 12. These data substantially improve previous knowledge of the chronology and sedimentary evolution of the succession, providing for the first time, a well constrained chronological and palaeoenvironmental framework for the archaeological and human palaeoecological record of Valle Giumentina. [ABSTRACT FROM AUTHOR]

Published

2016

177. Preliminary data from Valle Giumentina Pleistocene site (Abruzzo, Central Italy): A new approach to a Clactonian and Acheulian sequence.

Author

Nicoud, Elisa, Aureli, Daniele, Pagli, Marina, Villa, Valentina, Chaussé, Christine, Agostini, Silvano, Bahain, Jean-Jacques, Boschian, Giovanni, Degeai, Jean-Philippe, Fusco, Fabio, Giaccio, Biagio, Hernandez, Marion, Kuzucuoglu, Catherine, Lahaye, Christelle, Lemorini, Cristina, Limondin-Lozouet, Nicole, Mazza, Paul, Mercier, Norbert, Nomade, Sébastien, and Pereira, Alison

Subjects

*PLEISTOCENE Epoch, *ARCHAEOLOGICAL excavations, *CLACTONIAN culture, *ACHEULIAN culture

Abstract

Valle Giumentina is a Pleistocene open-air site in Central Italy (Abruzzo). Nine archaeological layers occur in the last 25 m of a 70 m thick sedimentary sequence. In the 1950s, the various archaeological layers were attributed to the Clactonian, Acheulian and Levalloisian traditions. Recent multidisciplinary fieldwork and studies (2012–2016) acquired new archaeological, chronostratigraphical and paleoenvironmental data. This contribution presents the preliminary results of the ongoing excavation of layer 42-ALB. This is a paleosol located at 4 m depth, at the top of a lacustrine deposit directly below the coarse deposits associated with the last major erosive event. Faunal remains consisted essentially by Cervus elaphus . The lithic series is characterized by a specific flake production system: only a part of the block is reduced, and platforms and surfaces are not prepared. Several methods are used, including the SSDA ( système par surfaces de débitage alternées ). Backed flakes are frequent. Numerous blanks are transformed by intensive or marginal retouch. Functional objectives are multiple, as shown by different tool structures and use-wear traces. Valle Giumentina 42-ALB is a butchery site used briefly but frequently during warmer substages occurring during an overall cold period. The “Clactonian” industry of Valle Giumentina is often considered as simple or expedient: we demonstrate its real technical complexity and its functional significance. Comparisons are made with other European sites. [ABSTRACT FROM AUTHOR]

Published

2016

178. Mode 1 or mode 2? “Small tools” in the technical variability of the European Lower Palaeolithic: The site of Ficoncella (Tarquinia, Lazio, central Italy).

Author

Aureli, Daniele, Rocca, Roxane, Lemorini, Cristina, Modesti, Valerio, Scaramucci, Sem, Milli, Salvatore, Giaccio, Biagio, Marano, Federica, Palombo, Maria Rita, and Contardi, Antonio

Subjects

*PALEOLITHIC Period, *FLUVIAL geomorphology, *RADIOACTIVE dating

Abstract

The site of Ficoncella, in northern Latium (Italy), represents a great opportunity to investigate the modalities of a short occupation in a fluvial context during Lower Palaeolithic. From the results of radiometric dating, geological study and bio-chronological analyses, it emerged that the human occupation at the site, an ancient riverbank, occurred 0.5 Ma (MIS 13). This period can be considered as a key moment in the Lower Palaeolithic, with the first Acheulean, or mode 2 sites in Europe. The lithic assemblage of Ficoncella, without handaxes, is characterized by an overall small tool size, representing a very original reduction sequence and tool management. In order to investigate the human behaviour characterizing the site, we analyse the lithic industries, using a classical technological analysis, combined with a techno-functional approach and a use-wear analysis. The study of the lithic assemblage of Ficoncella may contribute to renew our image of the lithic industries without handaxes, too often ignored. [ABSTRACT FROM AUTHOR]

Published

2016

179. The Fucino 250–170 ka tephra record: New insights on peri-Tyrrhenian explosive volcanism, central mediterranean tephrochronology, and timing of the MIS 8-6 climate variability.

Author

Monaco, Lorenzo, Leicher, Niklas, Palladino, Danilo M., Arienzo, Ilenia, Marra, Fabrizio, Petrelli, Maurizio, Nomade, Sebastien, Pereira, Alison, Sottili, Gianluca, Conticelli, Sandro, D'Antonio, Massimo, Fabbrizio, Alessandro, Jicha, Brian R., Mannella, Giorgio, Petrosino, Paola, Regattieri, Eleonora, Tzedakis, Polychronis C., Wagner, Bernd, Zanchetta, Giovanni, and Giaccio, Biagio

Subjects

*EXPLOSIVE volcanic eruptions, *TEPHROCHRONOLOGY, *VOLCANIC ash, tuff, etc., *VOLCANISM, *TRACE elements, ITALIAN history

Abstract

The Fucino Basin, central Italy, with its long and continuous history of Quaternary sediment accumulation, is one of the richest Mediterranean Middle Pleistocene tephra records. Here, we present a new detailed investigation of tephra layers (tephras) of the 250–170 thousand years before present (ka) interval, corresponding to the entire Marine Isotope Stage (MIS) 7 and parts of the MIS 8 and MIS 6. The investigated tephras have been characterised in terms of major, minor and trace elements, Sr–Nd isotopic compositions and 40Ar/39Ar ages. For correlation purposes, glass compositions and several new 40Ar/39Ar ages of selected proximal pyroclastic units spanning the same temporal interval from Vulsini (Latera Volcanic Complex), Sabatini, and Vico volcanic systems, central Italy, were measured. The late MIS 8-early MIS 6 Fucino tephras were backtracked to their corresponding volcanic sources, which include the Vulsini, Vico, Sabatini, Roccamonfina, Ischia and Campi Flegrei volcanic systems. While some of these tephras have been correlated to specific eruption units, other layers are currently not documented or described in near-vent sections, thus highlighting previously unrecognised events generated by these volcanic systems. Furthermore, the new high precision 40Ar/39Ar ages provide improved temporal constraints for Fucino making it one of the most detailed and chronologically best constrained tephra records for central Mediterranean MIS 7 tephrochronology. The Fucino record thus provides new integrative information for reconstructing the explosive history of Italian volcanoes during the investigated time interval. Furthermore, the geochronological constraints provide the basis for future paleoclimatic investigations at local and regional scale. • Fucino proves to be the richest Mediterranean Middle Pleistocene tephra record. • The Fucino provides a detailed history of the explosive volcanism during MIS 7. • High precision 40Ar/39Ar ages constrain the Mediterranean MIS 7 tephrochronology. • A robust, independent age-model for the MIS 7 paleoclimatic record is provided. [ABSTRACT FROM AUTHOR]

Published

2022

180. The 79 CE eruption of Vesuvius: A lesson from the past and the need of a multidisciplinary approach for developments in volcanology.

Author

Doronzo, Domenico M., Di Vito, Mauro A., Arienzo, Ilenia, Bini, Monica, Calusi, Benedetta, Cerminara, Matteo, Corradini, Stefano, de Vita, Sandro, Giaccio, Biagio, Gurioli, Lucia, Mannella, Giorgio, Ricciardi, Giovanni P., Rucco, Ilaria, Sparice, Domenico, Todesco, Micol, Trasatti, Elisa, and Zanchetta, Giovanni

Subjects

*VOLCANIC hazard analysis, *VOLCANOLOGY, *VOLCANIC ash, tuff, etc., *VOLCANIC plumes, *VOLCANOES, *MAGMAS, *WORK structure

Abstract

A full review of the 79 CE Plinian eruption of Vesuvius is presented through a multidisciplinary approach, exploiting the integration of historical, stratigraphic, sedimentological, petrological, geophysical, paleoclimatic, and modelling studies dedicated to this famous and devastating natural event. All studies have critically been reviewed and integrated with original data, spanning from proximal to ultradistal findings of the 79 CE eruption products throughout the Mediterranean. The work not only combines different investigation approaches (stratigraphic, petrological, geophysical, modelling), but also follows temporally the 79 CE eruptive and depositional events, from the magma chamber to the most distal tephras. This has allowed us first to compile a full database of all findings of those deposits, then to relate the products (the deposits) to the genetic thermomechanical processes (the eruption), and lastly to better assess both the local and regional impacts of the 79 CE eruption in the environment. This information leads to a number of open issues (e.g., regional environmental impact vs. local pyroclastic current impact) that are worthy of further investigations, although the 79 CE eruption of Vesuvius is one of the best studied eruptions in volcanology. The structure of the work follows three macro-categories, the historical aspects, the products, and the processes of the 79 CE eruption. For each investigation approach (from stratigraphy to modelling), all dedicated studies and original data are discussed. The open issues are then synthesized in the discussion under a global view of Plinian eruptions, from the magma setting to its dispersion as pyroclasts flowing on the surface vs. falling from the volcanic plume. In this way, a lesson from the past, in particular from the well-studied 79 CE eruption of Vesuvius, will be of help for a better synchronization of processes and products in future developments. Lastly, various aspects for volcanic hazard assessment of Plinian eruptions are highlighted from the tephra distribution and modelling points of view, as these large natural phenomena can have a larger impact than previously thought, also at other active volcanoes. [ABSTRACT FROM AUTHOR]

Published

2022

181. Late Quaternary benthic foraminiferal and ostracod response to palaeoenvironmental changes in a Mediterranean coastal area, Port of Salerno, Tyrrhenian Sea

Author

Amedeo Rossi, Roberta Parisi, Tonino Caruso, Diana Barra, Vincenzo Amato, Lucia Caporaso, Biagio Giaccio, Giuseppe Aiello, Aiello, Giuseppe, Amato, Vincenzo, Barra, Diana, Caporaso, Lucia, Caruso, Tonino, Giaccio, Biagio, Parisi, Roberta, and Rossi, Amedeo

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Pleistocene, Anthropogenic impact, Ostracoda, Campania region (Italy), Context (language use), Ecological succession, Aquatic Science, 01 natural sciences, Sedimentary depositional environment, Ostracod, Campania region (Italy), Late Quaternary, Benthic foraminifera, Ostracoda, Geochemistry, Anthropogenic impact, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Ecology, biology, 010604 marine biology & hydrobiology, Benthic foraminifera, biology.organism_classification, Oceanography, Geochemistry, Benthic zone, Animal Science and Zoology, Sedimentary rock, Late quaternary, Quaternary, Geology

Abstract

The Late Quaternary benthic foraminiferal and ostracod assemblages from two continuous cores drilled in the Port of Salerno were studied to define their relationship with geochemical characteristics of the sediments and with the palaeoenvironmental evolution. The succession, ranging from Late Pleistocene to the 20th century, recorded the transition from a marine coastal environment under natural conditions to a depositional context affected by anthropogenic influence. In the lower part of the sequence, ecological and sedimentary changes were linked to sea-level changes due to Late Quaternary climatic phases, as well as to volcanic events such as the Campanian Ignimbrite eruption, represented by levels with high metal (Fe, Mn, Pb, Zn) concentrations, possibly leading to low pH phases. Later human activities, such as the construction of harbour facilities in the 18th century and the industrial development in the 19th century, influenced environmental variations, as shown in the upper part of the succession. High levels of heavy metal concentrations (Co, Cu, Fe, Pb, V) recorded in layers deposited in the 1800s suggest the presence of a pollution event which could be linked to manufacturing activities and might have occurred during the first part of the 19th century. Calcareous meiofaunal assemblages showed high diversity values, probably due to the occurrence of ”rare short lived” species in an unstable environment. Assemblages were dominated by the foraminiferal species Ammonia aberdoveyensis and Haynesina depressula, and by the ostracods Pontocythere turbida and Semicytherura sulcata, which are considered as possibly stress-tolerant species.

Published

2020

182. Mediterranean tephrostratigraphy and peri-Tyrrhenian explosive activity revaluated in light of the 430-365 ka record from Fucino Basin (central Italy).

Author

Monaco, Lorenzo, Palladino, Danilo M., Gaeta, Mario, Marra, Fabrizio, Sottili, Gianluca, Leicher, Niklas, Mannella, Giorgio, Nomade, Sébastien, Pereira, Alison, Regattieri, Eleonora, Wagner, Bernd, Zanchetta, Giovanni, Albert, Paul G., Arienzo, Ilenia, D'Antonio, Massimo, Petrosino, Paola, Manning, Christina J., and Giaccio, Biagio

Subjects

*EXPLOSIVE volcanic eruptions, *TEPHROCHRONOLOGY, *STRONTIUM isotopes, *GEOLOGICAL time scales, *CHEMICAL fingerprinting, *VOLCANIC eruptions

Abstract

Accurately reconstructing the scale and timing of dynamic processes, such as Middle-Late Pleistocene explosive volcanism and rapid climatic changes, requires rigorous and independent chronological constraints. In this framework, the study of distal volcanic ash layers, or tephra, transported and deposited over wide regions during explosive volcanic eruptions, is increasingly being recognised as a fundamental chronostratigraphic tool for addressing these challenging issues. Here we present a high-resolution distal tephra record preserved in the lacustrine sedimentary succession of the Fucino Basin, central Italy. The investigated record spans the 430-365 ka time interval, covering the entirety of Marine Isotope Stage 11 (MIS 11), and provides important insights into peri-Tyrrhenian potassic explosive volcanism from sources located in central Italy against a backdrop of Mediterranean palaeooclimate records. The succession of ash fall events of this time interval is reconstructed through a detailed lithostratigraphic, geochemical and 40Ar/39Ar geochronological characterization of the deposits preserved as discrete layers in the Fucino F4-F5 sediment core. This work is complemented by similarly detailed characterization of selected proximal pyroclastic units from the peri-Tyrrhenian potassic volcanoes. Geochemical fingerprinting of the tephra deposits by means of their major, minor and trace elements and Sr isotope composition indicates that all the thirty-two investigated ash layers derived from the peri-Tyrrhenian potassic volcanoes. The stratigraphically continuous succession of the Fucino tephra layers allowed the development of a fully independent, 40Ar/39Ar age-constrained, Bayesian age-depth model for the investigated time interval. The age-model allows us to establish modelled ages for the tephra layers within the succession that are not directly dated. The resulting dated tephra record clearly reveals a highly time resolved and previously unparalelled chronicle of explosive activity from the Vulsini, Vico, Sabatini, Colli Albani and Roccamonfina volcanic complexes. Our study provides a benchmark and valuable geochemical and geochronological dataset to be used as a reference for any future development and application of the tephrostratigraphic methods across the central Mediterranean area both during the investigated 430-365 ka time interval, and deeper in time. This contribution underlines the importance of integrating proximal and distal sedimentary records to more accurately establish long-term and comprehensive volcanic eruption records. [ABSTRACT FROM AUTHOR]

Published

2021

183. Mid-to-late Holocene upper slope contourite deposits off Capo Vaticano (Mediterranean Sea): High-resolution record of contourite cyclicity, bottom current variability and sandy facies.

Author

Martorelli, Eleonora, Bosman, Alessandro, Casalbore, Daniele, Chiocci, Francesco, Conte, Aida Maria, Di Bella, Letizia, Ercilla, Gemma, Falcini, Federico, Falco, Pierpaolo, Frezza, Virgilio, Gaglianone, Giovanni, Giaccio, Biagio, and Mancini, Marco

Subjects

*HOLOCENE Epoch, *FACIES, *SEDIMENTATION & deposition, *CLIMATE change, *OCEANOGRAPHY, *SEDIMENTARY facies (Geology), *SILT

Abstract

The upper continental slope offshore Capo Vaticano (southern Tyrrhenian Sea) is characterized by a contourite depositional system with well-developed elongated sediment drifts. This system is related to a northward paleo-bottom current, similar to the present-day modified-Levantine Intermediate Water (modified-LIW) flowing from the Messina Strait. In this work, we show results from an integrated analysis of descriptive oceanography, high-resolution seismic profiles and core data (i.e., grain size, foraminiferal assemblages, tephrostratigraphy and AMS radiocarbon dating) collected from the crest and moat sectors of drift deposits. The studied succession formed since the mid Holocene, under the action of the modified-LIW and the stratigraphic architecture indicates an upslope migration of the moat and rather stable position of the crest sector. Grain-size features recorded from two sediment cores indicate the occurrence of a succession of complete bi-gradational sand-rich contourite sequences. Sandy facies were observed both as lag deposits formed in active moat channel and as coarser intervals of bi-gradational sequences forming drift deposits close to its crest. Their occurrence would highlight that upper slope environments impacted by intermediate water masses and proximal to sandy sources may represent favorable settings for accumulation of sandy sediment. The moat sector is characterized by a more complex stratigraphic record, where either moat sedimentation or lateral deposition of finer sediment occur, suggesting that further investigation is required to better understand this complex element of contourite systems. Based on available age information, some of the bi-gradational sequences probably formed during the Dark Age Cold Period, providing example of a small-scale cyclicity of contourite deposition, likely related to short-term (possibly multicentennial scale) fluctuations of the paleo modified-LIW. According to age constraints and analysis of foraminiferal assemblages, these fluctuations were likely governed by climate variations, with a weaker activity during warmer periods and faster currents during colder events. Unlabelled Image • Capo Vaticano middle-late Holocene contourites developed under the influence of the modified-Levantine Intermediate Water • Both the crest and moat sector of the CS1 contourite drift are characterized by stacked bi-gradational contourite sequences • The moat sector is characterized by a more complex stratigraphic record where different deposits may formthrough time • Capo Vaticano contourites include sandy-silty and sandy contourite sedimentary facies • Capo Vaticano contourites reveal short-term fluctuations of bottom current possibly related to Holocene climate variations [ABSTRACT FROM AUTHOR]

Published

2021

184. An end to the Last Interglacial highstand before 120 ka: Relative sea-level evidence from Infreschi Cave (Southern Italy).

Author

Bini, Monica, Zanchetta, Giovanni, Drysdale, Russell N., Giaccio, Biagio, Stocchi, Paolo, Vacchi, Matteo, Hellstrom, John C., Couchoud, Isabelle, Monaco, Lorenzo, Ratti, Andrea, Martini, Fabio, and Sarti, Lucia

Subjects

*TEPHROCHRONOLOGY, *URANIUM-thorium dating, *CAVES, *SPELEOTHEMS, *GREENLAND ice, *ANTARCTIC ice, *CLIFFS

Abstract

The timing, duration and evolution of sea level during the Marine Isotope Stage 5e (MIS 5e) highstand is a subject of intense debate. A major problem in resolving this debate is the difficulty of chronologically constraining the sea level fall that followed the peak of the highstand. This was mainly controlled by ice-sheet dynamics, the understanding of which is relevant for assessing future sea-level behavior due to global warming. Here we use stratigraphical and geochoronological (U/Th dating and tephra fingerprinting) evidence from the Infreschi archaeological cave (Marina di Camerota, Southern Italy) to constrain relative sea level (RSL) evolution during the MIS 5e highstand and younger stages. Uranium-thorium dating of speleothem deposition phases places the maximum highstand RSL at 8.90 ± 0.6 m a.s.l., as indicated by the near-horizontal upper limit of Lithophaga boreholes measured for along a ∼3.5 km coastal cliff section. Geochronological data show that RSL fell more than 6 m before ∼120 ka, suggesting a duration of the Last Interglacial highstand significantly shorter than proposed in some previous studies. Modelling shows that the RSL trend predicted by the ICE-5G and ICE-6G ice-sheet simulations is consistent with our data, but requires an additional significant reduction of both Greenland and Antarctic ice sheets to match the height of the local maximum highstand if no correction for tectonics is applied. Reconciling field data and models requires an earlier and likely shorter duration of the MIS 5e highstand. This suggests that our new data can constrain global ice-volume variations during the penultimate deglaciation, as well as glacial inception at the end of the Last Interglacial. According to our chronology, there is no local evidence of higher-than-present-day sea levels after 120 ka. • Infreschi cave data indicate that maximum highstand during MIS5e was ca. 8 m asl. • Infreschi cave data indicate RSL dropped of more than 6 m before 120 ka. • Infreschi cave data indicate that there is no evidence of RSL higher than present after 120 ka. [ABSTRACT FROM AUTHOR]

Published

2020

185. Tephrochronology of the central Mediterranean MIS 11c interglacial (∼425–395 ka): New constraints from the Vico volcano and Tiber delta, central Italy.

Author

Pereira, Alison, Monaco, Lorenzo, Marra, Fabrizio, Nomade, Sébastien, Gaeta, Mario, Leicher, Niklas, Palladino, Danilo M., Sottili, Gianluca, Guillou, Hervé, Scao, Vincent, and Giaccio, Biagio

Subjects

*TEPHROCHRONOLOGY, *VOLCANOES, *EXPLOSIVE volcanic eruptions, *INTERGLACIALS, *ANALYTICAL geochemistry, *VOLCANIC ash, tuff, etc., *VOLCANOLOGY

Abstract

Through a systematic integrated approach, which combined lithostratigraphic, geochronological and geochemical analyses of tephra from near-source sections of the peri-Tyrrhenian volcanoes and mid to distal settings, here we provide an improved tephrochronological framework for the Marine Isotope Stage 11c interglacial (MIS 11c, ∼425–395 ka) in the Central Mediterranean area. Specifically, we present the complete geochemical dataset and new high-precision 40Ar/39Ar ages of the previously poorly characterized earliest pyroclastic products of the Vico volcano (420–400 ka), including the Plinian eruptions of Vico α and Vico β and the immediately post-dating lower magnitude explosive events. Furthermore, we also provide new geochronological and geochemical data for the distal tephra layers preserved in the aggradational succession of the Tiber delta (San Paolo Formation), Roman area, which records sea level rise relating to the MIS 12 (glacial) to MIS 11 (interglacial) transition. Five pyroclastic units were recognized in Vico volcanic area, four out of which, Vico α, Vico β, Vico β top (a minor eruption immediately following Vico β and temporally very close to it) and Vico δ were directly dated at 414.8 ± 2.2 ka, 406.5 ± 2.4 ka, 406.4 ± 2.0 ka and 399.7 ± 3.2 ka respectively (2σ analytical uncertainties). These new data allow a critical reappraisal of the previously claimed identifications of Vico tephra from mid-distal to ultra-distal successions (i.e., Vico-Sabatini volcanic districts, Roman San Paolo Formation and Castel di Guido archaeological site, Sulmona Basin, Valdarno and Lake Ohrid), which were unavoidably biased by the poor and incomplete geochemical and geochronological reference datasets previously available. Such an improvement of the tephrochronological framework brings great benefits to any future investigations (e.g., paleoclimatology, archaeology, active tectonic, volcanology) in the dispersal areas of the studied eruptions at the key point in time that is MIS 11. • The Central Mediterranean tephrochronology of the MIS 11c interglacial (425–395 ka) is improved. • New high-precision 40Ar/39Ar ages and geochemical data for the Early Vico volcano activity are provided. • The tephrochronology of MIS 12-MIS 11Tiber River aggradational succession is reappraised and improved. [ABSTRACT FROM AUTHOR]

Published

2020

186. Lake Ohrid's tephrochronological dataset reveals 1.36 Ma of Mediterranean explosive volcanic activity.

Author

Leicher N, Giaccio B, Zanchetta G, Sulpizio R, Albert PG, Tomlinson EL, Lagos M, Francke A, and Wagner B

Abstract

Tephrochronology relies on the availability of the stratigraphical, geochemical and geochronological datasets of volcanic deposits, three preconditions which are both often only fragmentary accessible. This study presents the tephrochronological dataset from the Lake Ohrid (Balkans) sediment succession continuously reaching back to 1.36 Ma. 57 tephra layers were investigated for their morphological appearance, geochemical fingerprint, and (chrono-)stratigraphic position. Glass fragments of tephra layers were analyzed for their major element composition using Energy-Dispersive-Spectroscopy and Wavelength-Dispersive Spectroscopy and for their trace element composition by Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry. Radiometric dated equivalents of 16 tephra layers and orbital tuning of geochemical proxy data provided the basis for the age-depth model of the Lake Ohrid sediment succession. The age-depth model, in turn, provides ages for unknown or undated tephra layers. This dataset forms the basis for a regional stratigraphic framework and provides insights into the central Mediterranean explosive volcanic activity during the last 1.36 Ma., (© 2021. The Author(s).)

Published

2021

187. Mediterranean winter rainfall in phase with African monsoons during the past 1.36 million years.

Author

Wagner B, Vogel H, Francke A, Friedrich T, Donders T, Lacey JH, Leng MJ, Regattieri E, Sadori L, Wilke T, Zanchetta G, Albrecht C, Bertini A, Combourieu-Nebout N, Cvetkoska A, Giaccio B, Grazhdani A, Hauffe T, Holtvoeth J, Joannin S, Jovanovska E, Just J, Kouli K, Kousis I, Koutsodendris A, Krastel S, Lagos M, Leicher N, Levkov Z, Lindhorst K, Masi A, Melles M, Mercuri AM, Nomade S, Nowaczyk N, Panagiotopoulos K, Peyron O, Reed JM, Sagnotti L, Sinopoli G, Stelbrink B, Sulpizio R, Timmermann A, Tofilovska S, Torri P, Wagner-Cremer F, Wonik T, and Zhang X

Subjects

Africa, Mediterranean Region, Models, Theoretical, Climate, Rain, Seasons

Abstract

Mediterranean climates are characterized by strong seasonal contrasts between dry summers and wet winters. Changes in winter rainfall are critical for regional socioeconomic development, but are difficult to simulate accurately 1 and reconstruct on Quaternary timescales. This is partly because regional hydroclimate records that cover multiple glacial-interglacial cycles 2,3 with different orbital geometries, global ice volume and atmospheric greenhouse gas concentrations are scarce. Moreover, the underlying mechanisms of change and their persistence remain unexplored. Here we show that, over the past 1.36 million years, wet winters in the northcentral Mediterranean tend to occur with high contrasts in local, seasonal insolation and a vigorous African summer monsoon. Our proxy time series from Lake Ohrid on the Balkan Peninsula, together with a 784,000-year transient climate model hindcast, suggest that increased sea surface temperatures amplify local cyclone development and refuel North Atlantic low-pressure systems that enter the Mediterranean during phases of low continental ice volume and high concentrations of atmospheric greenhouse gases. A comparison with modern reanalysis data shows that current drivers of the amount of rainfall in the Mediterranean share some similarities to those that drive the reconstructed increases in precipitation. Our data cover multiple insolation maxima and are therefore an important benchmark for testing climate model performance.

Published

2019

188. High-precision 14 C and 40 Ar/ 39 Ar dating of the Campanian Ignimbrite (Y-5) reconciles the time-scales of climatic-cultural processes at 40 ka.

Author

Giaccio B, Hajdas I, Isaia R, Deino A, and Nomade S

Abstract

The Late Pleistocene Campanian Ignimbrite (CI) super-eruption (Southern Italy) is the largest known volcanic event in the Mediterranean area. The CI tephra is widely dispersed through western Eurasia and occurs in close stratigraphic association with significant palaeoclimatic and Palaeolithic cultural events. Here we present new high-precision 14 C (34.29 ± 0.09 14 C kyr BP, 1σ) and 40 Ar/ 39 Ar (39.85 ± 0.14 ka, 95% confidence level) dating results for the age of the CI eruption, which substantially improve upon or augment previous age determinations and permit fuller exploitation of the chronological potential of the CI tephra marker. These results provide a robust pair of 14 C and 40 Ar/ 39 Ar ages for refining both the radiocarbon calibration curve and the Late Pleistocene time-scale at ca. 40 ka. In addition, these new age constraints provide compelling chronological evidence for the significance of the combined influence of the CI eruption and Heinrich Event 4 on European climate and potentially evolutionary processes of the Early Upper Palaeolithic.

Published

2017