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6. A reference time scale for Site U1385 (Shackleton Site) on the SW Iberian Margin

Author

Abrantes, Fatima, Acton, Gary D., Alvarez Zarikian, Carlos A., Bahr, André, Balestra, Barbara, Barranco, Estefanìa Llave, Carrara, Gabriela, Ducassou, Emmanuelle, Flood, Roger D., Flores, José-Abel, Furota, Satoshi, Grimalt, Joan, Grunert, Patrick, Hernández-Molina, Javier, Kim, Jin Kyoung, Krissek, Lawrence A., Kuroda, Junichiro, Li, Baohua, Lofi, Johanna, Margari, Vasiliki, Martrat, Belen, Miller, Madeline D., Nanayama, Futoshi, Nishida, Naohisa, Richter, Carl, Rodrigues, Teresa, Rodríguez-Tovar, Francisco J., Roque, Ana Cristina Freixo, Sanchez Goñi, Maria F., Sierro Sánchez, Francisco J., Singh, Arun D., Sloss, Craig R., Stow, Dorrik A.V., Takashimizu, Yasuhiro, Tzanova, Alexandrina, Voelker, Antje, Xuan, Chuang, Williams, Trevor, Hodell, D., Lourens, L., Crowhurst, S., Konijnendijk, T., Tjallingii, R., Jiménez-Espejo, F., Skinner, L., and Tzedakis, P.C.

Published
2015
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7. Extreme glacial cooling likely led to hominin depopulation of Europe in the Early Pleistocene.

Author

Margari, Vasiliki, Hodell, David A., Parfitt, Simon A., Ashton, Nick M., Grimalt, Joan O., Hyuna Kim, Kyung-Sook Yun, Gibbard, Philip L., Stringer, Chris B., Timmermann, Axel, and Tzedakis, Polychronis C.

Subjects
*GLACIATION, *PLEISTOCENE Epoch, *DEMOGRAPHIC change, *INTERGLACIALS, *COOLING, *FOSSIL hominids
Abstract

The oldest known hominin remains in Europe [~1.5 to ~1.1 million years ago (Ma)] have been recovered from Iberia, where paleoenvironmental reconstructions have indicated warm and wet interglacials and mild glacials, supporting the view that once established, hominin populations persisted continuously. We report analyses of marine and terrestrial proxies from a deep-sea core on the Portugese margin that show the presence of pronounced millennial-scale climate variability during a glacial period ~1.154 to ~1.123 Ma, culminating in a terminal stadial cooling comparable to the most extreme events of the last 400,000 years. Climate envelope-model simulations reveal a drastic decrease in early hominin habitat suitability around the Mediterranean during the terminal stadial. We suggest that these extreme conditions led to the depopulation of Europe, perhaps lasting for several successive glacial-interglacial cycles. [ABSTRACT FROM AUTHOR]

Published
2023
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8. A 1.5-million-year record of orbital and millennial climate variability in the North Atlantic.

Author

Hodell, David A., Crowhurst, Simon J., Lourens, Lucas, Margari, Vasiliki, Nicolson, John, Rolfe, James E., Skinner, Luke C., Thomas, Nicola C., Tzedakis, Polychronis C., Mleneck-Vautravers, Maryline J., and Wolff, Eric W.

Subjects
MILANKOVITCH cycles, GLACIAL climates, GLACIATION, ATMOSPHERIC methane, CLIMATE change, ATMOSPHERIC temperature
Abstract

Climate during the last glacial period was marked by abrupt instability on millennial timescales that included large swings of temperature in and around Greenland (Daansgard–Oeschger events) and smaller, more gradual changes in Antarctica (AIM events). Less is known about the existence and nature of similar variability during older glacial periods, especially during the early Pleistocene when glacial cycles were dominantly occurring at 41 kyr intervals compared to the much longer and deeper glaciations of the more recent period. Here, we report a continuous millennially resolved record of stable isotopes of planktic and benthic foraminifera at IODP Site U1385 (the "Shackleton Site") from the southwestern Iberian margin for the last 1.5 million years, which includes the Middle Pleistocene Transition (MPT). Our results demonstrate that millennial climate variability (MCV) was a persistent feature of glacial climate, both before and after the MPT. Prior to 1.2 Ma in the early Pleistocene, the amplitude of MCV was modulated by the 41 kyr obliquity cycle and increased when axial tilt dropped below 23.5 ∘ and benthic δ18O exceeded ∼3.8 ‰ (corrected to Uvigerina), indicating a threshold response to orbital forcing. Afterwards, MCV became focused mainly on the transitions into and out of glacial states (i.e. inceptions and terminations) and during times of intermediate ice volume. After 1.2 Ma, obliquity continued to play a role in modulating the amplitude of MCV, especially during times of glacial inceptions, which are always associated with declining obliquity. A non-linear role for obliquity is also indicated by the appearance of multiples (82, 123 kyr) and combination tones (28 kyr) of the 41 kyr cycle. Near the end of the MPT (∼0.65 Ma), obliquity modulation of MCV amplitude wanes as quasi-periodic 100 kyr and precession power increase, coinciding with the growth of oversized ice sheets on North America and the appearance of Heinrich layers in North Atlantic sediments. Whereas the planktic δ18O of Site U1385 shows a strong resemblance to Greenland temperature and atmospheric methane (i.e. Northern Hemisphere climate), millennial changes in benthic δ18O closely follow the temperature history of Antarctica for the past 800 kyr. The phasing of millennial planktic and benthic δ18O variation is similar to that observed for MIS 3 throughout much of the record, which has been suggested to mimic the signature of the bipolar seesaw – i.e. an interhemispheric asymmetry between the timing of cooling in Antarctica and warming in Greenland. The Iberian margin isotopic record suggests that bipolar asymmetry was a robust feature of interhemispheric glacial climate variations for at least the past 1.5 Ma despite changing glacial boundary conditions. A strong correlation exists between millennial increases in planktic δ18O (cooling) and decreases in benthic δ13C , indicating that millennial variations in North Atlantic surface temperature are mirrored by changes in deep-water circulation and remineralization of carbon in the abyssal ocean. We find strong evidence that climate variability on millennial and orbital scales is coupled across different timescales and interacts in both directions, which may be important for linking internal climate dynamics and external astronomical forcing. [ABSTRACT FROM AUTHOR]

Published
2023
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10. A 1.5-Million-Year Record of Orbital and Millennial Climate Variability in the North Atlantic.

Author

Hodell, David A., Crowhurst, Simon J., Lourens, Lucas, Margari, Vasiliki, Nicolson, John, Rolfe, James E., Skinner, Luke C., Thomas, Nicola, Tzedakis, Polychronis C., Mleneck-Vautravers, Maryline J., and Wolff, Eric W.

Abstract

Climate during the last glacial period was marked by abrupt instability on millennial time scales that included large swings of temperature in and around Greenland (Daansgard-Oeschger events) and smaller, more gradual changes in Antarctica (AIM events). Less is known about the existence and nature of similar variability during older glacial periods, especially during the early Pleistocene when glacial cycles were dominantly occurring at 41-kyr intervals compared to the much longer and deeper glaciations of the more recent period. Here we report a continuous millennially-resolved record of stable isotopes of planktic and benthic foraminifera at IODP Site U1385 (the "Shackleton Site") from the southwestern Iberian margin for the last 1.5 million years, which includes the Middle Pleistocene Transition (MPT). Our results demonstrate that millennial climate variability (MCV) was a persistent feature of glacial climate, both before and after the MPT. Prior to 1.2 Ma in the early Pleistocene, the amplitude of MCV was modulated by the 41-kyr obliquity cycle and increased when axial tilt dropped below 23.5o and benthic δ18O exceeded ~3.8? (corrected to Uvigerina), indicating a threshold response to orbital forcing. Afterwards, MCV became focused mainly on the transitions into and out of glacial states (i.e., inceptions and terminations) and during times of intermediate ice volume. During the MPT (1.2-0.65 Ma), obliquity continues to modulate the amplitude of MCV but in a more non-linear fashion as evidenced by the appearance of multiples (82, 123 kyrs) and combination tones (28 kyrs) of the 41-kyr cycle. At the end of the MPT (~0.65 Ma), obliquity modulation of MCV amplitude wanes as quasi-periodic 100-kyr and precession power increase, coinciding with growth of oversized ice sheets on North America and the appearance of Heinrich layers in North Atlantic sediments. Whereas the planktic δ18O of Site U1385 shows a strong resemblance to Greenland temperature and atmospheric methane (i.e., northern hemisphere climate), millennial changes in benthic δ18O closely follow the temperature history of Antarctica for the past 800 ka. The phasing of planktic and benthic δ18O throughout much of the record is similar to that observed for MIS 3, which has been suggested to mimic the signature of the bipolar seesaw -- i.e., an interhemispheric asymmetry between the timing of cooling in Antarctica and warming in Greenland. The Iberian margin isotopic record suggests bipolar asymmetry was a robust feature of interhemispheric glacial climate variations for at least the past 1.5 Ma despite changing glacial boundary conditions. A strong correlation exists between millennial increases in planktic δ18O (cooling) and decreases in benthic δ13C, indicating millennial variations in North Atlantic surface temperature are mirrored by changes in deep-water circulation and remineralization of carbon in the abyssal ocean. We find strong evidence that climate variability on millennial and orbital scales are coupled across different time scales and interact, in both directions, which may be important for linking internal climate dynamics and external astronomical forcing. [ABSTRACT FROM AUTHOR]

Published
2022
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11. Abrupt intrinsic and extrinsic responses of southwestern Iberian vegetation to millennial‐scale variability over the past 28 ka.

Author

Cutmore, Anna, Ausín, Blanca, Maslin, Mark, Eglinton, Timothy, Hodell, David, Muschitiello, Francesco, Menviel, Laurie, Haghipour, Negar, Martrat, Belen, Margari, Vasiliki, and Tzedakis, Polychronis C.

Subjects
OCEAN temperature, YOUNGER Dryas, CLIMATE change, RADIOCARBON dating, SOLAR radiation
Abstract

We present new high‐resolution pollen records combined with palaeoceanographic proxies from the same samples in deep‐sea cores SHAK06‐5K and MD01‐2444 on the southwestern Iberian Margin, documenting regional vegetation responses to orbital and millennial‐scale climate changes over the last 28 ka. The chronology of these records is based on high‐resolution radiocarbon dates of monospecific samples of the planktonic foraminifera Globigerina bulloides, measured from SHAK06‐5K and MD01‐2444 and aligned using an automated stratigraphical alignment method. Changes in temperate and steppe vegetation during Marine Isotope Stage 2 are closely coupled with sea surface temperature (SST) and global ice‐volume changes. The peak expansion of thermophilous woodland between ~10.1 and 8.4 cal ka bp lags behind the boreal summer insolation maximum by ~2 ka, possibly arising from residual high‐latitude ice‐sheets into the Holocene. Rapid changes in pollen percentages are coeval with abrupt transitions in SSTs, precipitation and winter temperature at the onset and end of Heinrich Stadial 2, the ice‐rafted debris event and end of Heinrich Stadial 1, and the onset of the Younger Dryas, suggesting extrinsically forced southwestern Iberian ecosystem changes by abrupt North Atlantic climate events. In contrast, the abrupt decline in thermophilous elements at ~7.8 cal ka bp indicates an intrinsically mediated abrupt vegetation response to the gradually declining boreal insolation, potentially resulting from the crossing of a seasonality of precipitation threshold. [ABSTRACT FROM AUTHOR]

Published
2022
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12. A reference time scale for Site U1385 (Shackleton Site) on the SW Iberian Margin

Author

Hodell, D., Lourens, L., Crowhurst, S., Konijnendijk, T., Tjallingii, R., Jiménez-Espejod, F., Skinner, L., Tzedakis, P. C., Abrantes, Fatima, Acton, Gary D., Alvarez Zarikian, Carlos A., Bahr, André, Balestra, Barbara, Barranco, Estefanìa Llave, Carrara, Gabriela, Ducassou, Emmanuelle, Flood, Roger D., Flores, José-Abel, Furota, Satoshi, Grimalt, Joan, Grunert, Patrick, Hernández-Molina, Javier, Kim, Jin Kyoung, Krissek, Lawrence A., Kuroda, Junichiro, Li, Baohua, Lofi, Johanna, Margari, Vasiliki, Martrat, Belen, Miller, Madeline D., Nanayama, Futoshi, Nishida, Naohisa, Richter, Carl, Rodrigues, Teresa, Rodríguez-Tovar, Francisco J., Roque, Ana Cristina Freixo, Sanchez Goñi, Maria F., Sierro Sánchez, Francisco J., Singh, Arun D., Sloss, Craig R., Stow, Dorrik A. V., Takashimizu, Yasuhiro, Tzanova, Alexandrina, Voelker, Antje, Xuan, Chuang, Williams, Trevor, Hodell, David [0000-0001-8537-1588], Skinner, Luke [0000-0002-5050-0244], and Apollo - University of Cambridge Repository

Subjects
Pleistocene, Global and Planetary Change, sub-01, Oxygen isotopes, Cyclostratigraphy, Iberian Margin, Stratigraphic correlation, Oceanography, Millennial climate variability, IODP
Abstract

We produced a composite depth scale and chronology for Site U1385 on the SW Iberian Margin. Using log(Ca/Ti) measured by core scanning XRF at 1-cm resolution in all holes, a composite section was constructed to 166.5 meters composite depth (mcd) that corrects for stretching and squeezing in each core. Oxygen isotopes of benthic foraminifera were correlated to a stacked δ^18O reference signal (LR04) to produce an oxygen isotope stratigraphy and age model. Variations in sediment color contain very strong precession signals at Site U1385, and the amplitude modulation of these cycles provides a powerful tool for developing an orbitally-tuned age model. We tuned the U1385 record by correlating peaks in L* to the local summer insolation maxima at 37^oN. The benthic δ^18O record of Site U1385, when placed on the tuned age model, generally agrees with other time scales within their respective chronologic uncertainties. The age model is transferred to down-core data to produce a continuous time series of log(Ca/Ti) that reflect relative changes of biogenic carbonate and detrital sediment. Biogenic carbonate increases during interglacial and interstadial climate states and decreases during glacial and stadial periods. Much of the variance in the log(Ca/Ti) is explained by a linear combination of orbital frequencies (precession, tilt and eccentricity), whereas the residual signal reflects suborbital climate variability. The strong correlation between suborbital log(Ca/Ti) variability and Greenland temperature over the last glacial cycle at Site U1385 suggests that this signal can be used as a proxy for millennial-scale climate variability over the past 1.5 Ma. Millennial climate variability, as expressed by log(Ca/Ti) at Site U1385, was a persistent feature of glacial climates over the past 1.5 Ma, including glacial periods of the early Pleistocene (‘41-kyr world’) when boundary conditions differed significantly from those of the late Pleistocene (‘100-kyr world’). Suborbital variability was suppressed during interglacial stages and enhanced during glacial periods, especially when benthic δ^18O surpassed ~ 3.3-3.5‰. Each glacial inception was marked by appearance of strong millennial variability and each deglaciation was preceded by a terminal stadial event. Suborbital variability may be a symptomatic feature of glacial climate or, alternatively, may play a more active role in the inception and/or termination of glacial cycles.

Published
2015

13. Response of Iberian Margin sediments to orbital and suborbital forcing over the past 420 ka

Author

Hodell, David, Crowhurst, Simon, Skinner, Luke, Tzedakis, Polychronis C., Margari, Vasiliki, Channell, James E.T., Kamenov, George, Maclachlan, Suzanne, and Rothwell, Guy

Abstract

Here we report 420 kyr long records of sediment geochemical and color variations from the southwestern Iberian Margin. We synchronized the Iberian Margin sediment record to Antarctic ice cores and speleothem records on millennial time scales and investigated the phase responses relative to orbital forcing of multiple proxy records available from these cores. Iberian Margin sediments contain strong precession power. Sediment "redness" (a* and 570-560 nm) and the ratio of long-chain alcohols to n-alkanes (C26OH/(C26OH+C-29)) are highly coherent and in-phase with precession. Redder layers and more oxidizing conditions (low alcohol ratio) occur near precession minima (summer insolation maxima). We suggest these proxies respond rapidly to low-latitude insolation forcing by wind-driven processes (e.g., dust transport, upwelling, precipitation). Most Iberian Margin sediment parameters lag obliquity maxima by 7-8 ka, indicating a consistent linear response to insolation forcing at obliquity frequencies driven mainly by high-latitude processes. Although the lengths of the time series are short (420 ka) for detecting 100 kyr eccentricity cycles, the phase relationships support those obtained by Shackleton [2000]. Antarctic temperature and the Iberian Margin alcohol ratios (C26OH/(C26OH+C-29)) lead eccentricity maxima by 6 kyr, with lower ratios (increased oxygenation) occurring at eccentricity maxima. CO2, CH4, and Iberian SST are nearly in phase with eccentricity, and minimum ice volume (as inferred from Pacific delta O-18(seawater)) lags eccentricity maxima by 10 kyr. The phase relationships derived in this study continue to support a potential role of the Earth's carbon cycle in contributing to the 100 kyr cycle. Citation: Hodell, D., S. Crowhurst, L. Skinner, P. C. Tzedakis, V. Margari, J. E. T. Channell, G. Kamenov, S. Maclachlan, and G. Rothwell (2013), Response of Iberian Margin sediments to orbital and suborbital forcing over the past 420 ka, Paleoceanography, 28, 185-199, doi:10.1002/palo.20017.

Published
2013

14. The new chronology of the Ceprano calvarium (Italy)

Author

Manzi, Giorgio, Magri, Donatella, Milli, Salvatore, Palombo, Maria Rita, Margari, Vasiliki, Celiberti, Vincenzo, Barbieri, Mario, Barbieri, Maurizio, Melis, Rita T., Rubini, Mauro, Ruffo, Massimo, Saracino, Barbara, Tzedakis, Polychronis C., Zarattini, Annalisa, and Biddittu, Italo

Published
2010
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15. Land-ocean changes on orbital and millennial time scales and the penultimate glaciation.

Author

Margari, Vasiliki, Skinner, Luke C., Hodell, David A., Martrat, Belen, Toucanne, Samuel, Grimalt, Joan O., Gibbard, Philip L., Lunkka, J. P., and Tzedakis, P. C.

Subjects
*GLACIAL climates, *CLIMATE change, *GEOGRAPHIC boundaries, *GLACIATION, *MERIDIONAL overturning circulation
Abstract

Past glacials can be thought of as natural experiments in which variations in boundary conditions infl uenced the character of climate change. However, beyond the last glacial, an integrated view of orbital- and millennial-scale changes and their relation to the record of glaciation has been lacking. Here, we present a detailed record of variations in the land-ocean system from the Portuguese margin during the penultimate glacial and place it within the framework of ice-volume changes, with particular reference to European ice-sheet dynamics. The interaction of orbital- and millennial-scale variability divides the glacial into an early part with warmer and wetter overall conditions and prominent climate oscillations, a transitional mid-part, and a late part with more subdued changes as the system entered a maximum glacial state. The most extreme event occurred in the mid-part and was associated with melting of the extensive European ice sheet and maximum discharge from the Fleuve Manche river. This led to disruption of the meridional overturning circulation, but not a major activation of the bipolar seesaw. In addition to stadial duration, magnitude of freshwater forcing, and background climate, the evidence also points to the infl uence of the location of freshwater discharges on the extent of interhemispheric heat transport [ABSTRACT FROM AUTHOR]

Published
2014
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17. Wide dispersal and deposition of distal tephra during the Pleistocene ‘Campanian Ignimbrite/Y5’ eruption, Italy

Author

Pyle, David M., Ricketts, Graham D., Margari, Vasiliki, van Andel, Tjeerd H., Sinitsyn, Andrei A., Praslov, Nicolai D., and Lisitsyn, Sergei

Subjects
*VOLCANIC ash, tuff, etc., *ANALYTICAL chemistry, *IGNEOUS rocks
Abstract

Abstract: A trachytic volcanic ash layer is widely distributed across south-western Russia, where it is found both in well-characterised archaeological contexts close to the Don River (the Paleolithic sites of Kostenki-Borschevo (51.4°N, 39.0°E), and in undisturbed geological contexts. This ash layer has all of the characteristics of a distal tephra fall deposit: it is fine grained and unimodal with a grain size of 60–170μm, dominated by strongly elongate glass shard fragments. Chemical analysis confirms that this ash layer is a distal equivalent of the deposits of the ca 39.3ka Campanian Ignimbrite eruption of the Phlegrean Fields, Italy, and correlates with the widely recognised Y5 ash layer in marine cores in the south-eastern Mediterranean. This work shows that ash particles can be dispersed over considerable distances (>2500km) and areas (>1.5–3×106 km2) during large-magnitude explosive eruptions. The volume of the products associated with this event (31–50km3 of magma erupted as fallout tephra, and a total volume of 105–210km3 of magma, or 2.5–5×1014 kg) confirms the Campanian Ignimbrite/Y5 eruption as the most significant known volcanic eruption in Europe of the past 100ka. This correlation places tight constraints on the absolute ages of a number of important archaeological horizons in southern Russia. [Copyright &y& Elsevier]

Published
2006
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