Multiproxy record for the last 4500 years from Lake Shkodra (Albania/Montenegro)

Zanchetta, Giovanni; Welden, Aurélien van; Baneschi, Ilaria; Drysdale, Russell N.; Sadori, Laura; Roberts, Neil; Giardini, Marco; Beck, Christian; Pascucci, Vincenzo; Sulpizio, Roberto

doi:10.1002/jqs.2563

Cited by 81 publications

(63 citation statements)

References 49 publications

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“…X‐ray diffraction and scanning electron microscopy analyses of the non‐clay fraction indicated that the prominent mineral phase throughout the core is calcite, followed by minor quartz. No aragonite was detected in the samples, indicating negligible amounts of shell fragments (Leone et al ., ; Zanchetta et al ., ). The carbonate fraction is mainly composed of euhedral to subhedral calcite crystals of ca.…”

Section: Resultsmentioning

confidence: 97%

Hydrological variability over the Apennines during the Early Last Glacial precession minimum, as revealed by a stable isotope record from Sulmona basin, Central Italy

Regattieri

Giaccio

Zanchetta

et al. 2015

J Quaternary Science

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A multi-proxy record was acquired from a Late Pleistocene lacustrine succession in the Sulmona basin, central Italy. Previous and new tephrostratigraphic analyses of six volcanic ash layers constrain the investigated interval to between 92.3 and 115.0 ka. The d 18 O composition is interpreted as a proxy for precipitation amount in the high-altitude catchment of the karst recharge system. The oxygen record shows millennial variability that is consistent with Greenland Interstadials GI25-GI23 and North Atlantic cold events C24-C22, indicating a strong Mediterranean-North Atlantic climate teleconnection. However, while no appreciable isotopic difference between the three interstadials is revealed by the Greenland record, the Sulmona section reveals a wetter climate during GI24 compared with GI23 and GI25. Comparison of our record with speleothem and pollen data from central and southern Italy suggests higher seasonality of the precipitation (wet winter-dry summer) for GI24, which matches a precession minimum. The wettest period recorded at Sulmona is also coincident with the deposition of Sapropel S4 in the Tyrrhenian Sea, suggesting a teleconnection between a higher seasonality in the western Mediterranean and strengthening of the boreal monsoon system.

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Section: Resultsmentioning

confidence: 97%

Hydrological variability over the Apennines during the Early Last Glacial precession minimum, as revealed by a stable isotope record from Sulmona basin, Central Italy

Regattieri

Giaccio

Zanchetta

et al. 2015

J Quaternary Science

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“…Multiproxy records (e.g., δ 18 O, pollen, δ 13 C, stable isotopes, etc.) provide a picture of Holocene climatic variability over many areas of Europe including Italy (Magny et al., ; Regattieri, Zanchetta, Drysdale, Isola, Hellstrom, Dallai, ; Zanchetta et al., ). However, less is known about the relationship between climatic variability and soil properties and their influence on prehistory.…”

Section: Resultsmentioning

confidence: 99%

Pedological investigation of an early Bronze Age site in southern Italy

et al. 2017

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Archaeological excavations over the last 40 years in Campania (southern Italy) confirm intense human occupation since the early Bronze Age (EBA). A pedological analysis of a ∼9 m deep pedostratigraphic sequence at Palma Campania (Naples) provides insights into fertility, rates of soil formation, and environmental conditions over the past 10 kyr. Fourteen volcanic soils formed in parent materials from Vesuvius and Campi Flegrei volcanic eruptions were analyzed. Results show that soils differ markedly in terms of thickness, andic properties, chemical fertility, and degree of development. Chemical properties, along with specific soil micromorphological features (such as silt coatings, laminar structure, iron segregations), are interpreted in terms of pedogenetic processes and used to reconstruct past environmental conditions. The degree of soil development, evaluated on the basis of organic matter content and some andic properties, proved more indicative of climate and geomorphological stability than duration of pedogenesis. Since the excavation also revealed an extensive EBA paleosurface and soil, targeted analyses were carried out to gain a better understanding of the impact of human activities and domestic animals on soil properties.

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“…Stable isotope records from lake Shkodra (Albania) show the wettest period of the last 4500 cal BP at ca. 2500-2000 cal BP (Zanchetta et al, 2012b). The first two phases of cooling (2600-2000, 1650-1100 cal BP) chronologically comprehend the last two periods of the Calderone glacier expansion (Giraudi et al, 2011).…”

Section: Climate Reconstructionmentioning

confidence: 99%

The last 7 millennia of vegetation and climate changes at Lago di Pergusa (central Sicily, Italy)

et al. 2013

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The aim of this study is to investigate climate changes and human activities under the lens of palynology. Based on a new high-resolution pollen sequence (PG2) from Lago di Pergusa (667 m a.s.l., central Sicily, Italy) covering the last 6700 yr, we propose a reconstruction of climate and landscape changes over the recent past in central Sicily. Compared to former studies from Lago di Pergusa (Sadori and Narcisi, 2001), this work provides a reconstruction of the evolution of vegetation and climate over the last millennia in central Sicily, indeed completing previous results with new pollen data, which is particularly detailed on the last 3000 yr.

Joint actions of increasing dryness, climate oscillations, and human impact shaped the landscape of this privileged site. Lago di Pergusa, besides being the main inland lake of Sicily, is very sensitive to climate change and its territory was inhabited and exploited continuously since the Palaeolithic. The lake sediments turned out to be a good observatory for natural phenomena that occurred in the last thousands of years.

Results of the pollen-based study are integrated with changes in magnetic susceptibility and a tephra layer characterization. The tephra layer was shown to be related to the Sicanians' event, radiocarbon dated at 3055 ± 75 yr BP (Sadori and Narcisi, 2001).

We performed palaeoclimate reconstructions by MAT (Modern Analogues Technique) and WAPLS (Weighted Average Partial Least Square). Palaeoclimate reconstructions based on the core show important climate fluctuations throughout the Holocene. Climate reconstruction points out four phases of cooling and enhanced wetness in the last three millennia (2600-2000, 1650-1100, 850-550, 400-200 cal BP, corresponding to the periods between 650-50 BC, and 300-850, 1100-1400, 1550-1750 AD, respectively)

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Multiproxy record for the last 4500 years from Lake Shkodra (Albania/Montenegro)

Cited by 81 publications

References 49 publications

Hydrological variability over the Apennines during the Early Last Glacial precession minimum, as revealed by a stable isotope record from Sulmona basin, Central Italy

Hydrological variability over the Apennines during the Early Last Glacial precession minimum, as revealed by a stable isotope record from Sulmona basin, Central Italy

Pedological investigation of an early Bronze Age site in southern Italy

The last 7 millennia of vegetation and climate changes at Lago di Pergusa (central Sicily, Italy)

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