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

Author

Stratigraphy and paleontology, Stratigraphy & paleontology, 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., Wolff, Eric W., Stratigraphy and paleontology, Stratigraphy & paleontology, 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.

Published
2023

10. Interhemispheric Atlantic seesaw response during the last deglaciation

Author

Barker, Stephen, Diz, Paula, Vautravers, Maryline J., Pike, Jennifer, Knorr, Gregor, Hall, Ian R., and Broecker, Wallace S.

Subjects
Climatic changes -- Research, North Atlantic oscillation -- Research, Ocean temperature -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation, Research
Abstract

The asynchronous relationship between millennial-scale temperature changes over Greenland and Antarctica during the last glacial period has led to the notion of a bipolar seesaw which acts to redistribute heat depending on the state of meridional overturning circulation within the Atlantic Ocean. Here we present new records from the South Atlantic that show rapid changes during the last deglaciation that were instantaneous (within dating uncertainty) and of opposite sign to those observed in the North Atlantic. Our results demonstrate a direct link between the abrupt changes associated with variations in the Atlantic meridional overturning circulation and the more gradual adjustments characteristic of the Southern Ocean. These results emphasize the importance of the Southern Ocean for the development and transmission of millennial-scale climate variability and highlight its role in deglacial climate change and the associated rise in atmospheric carbon dioxide., The last glacial and deglacial periods were characterized by millennial-scale shifts in global climate. Records from Greenland ice cores (1) and North Atlantic sediments (2,3) suggest that high latitudes in [...]

Published
2009

11. 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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12. Rapid subtropical North Atlantic salinity oscillations across Dansgaard-Oeschger cycles

Author

Schmidt, Matthew W., Vautravers, Maryline J., and Spero, Howard J.

Subjects
Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Author(s): Matthew W. Schmidt (corresponding author) [1, 3]; Maryline J. Vautravers [2, 3]; Howard J. Spero [1] Geochemical and sedimentological evidence suggest that the rapid climate warming oscillations of the [...]

Published
2006
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13. Fast and slow components of interstadial warming in the North Atlantic during the last glacial

Author

European Commission, Grimalt, Joan O. [0000-0002-7391-5768], Margari, Vasiliki, Skinner, Luke C., Menviel, Laurie, Capron, Emilie, Rhodes, Rachael H., Mleneck-Vautravers, Maryline J., Ezat, Mohamed M., Grimalt, Joan O., Martrat, Belen, Hodell, David A., Tzedakis, Polychronis C., European Commission, Grimalt, Joan O. [0000-0002-7391-5768], Margari, Vasiliki, Skinner, Luke C., Menviel, Laurie, Capron, Emilie, Rhodes, Rachael H., Mleneck-Vautravers, Maryline J., Ezat, Mohamed M., Grimalt, Joan O., Martrat, Belen, Hodell, David A., and Tzedakis, Polychronis C.

Abstract

The abrupt nature of warming events recorded in Greenland ice-cores during the last glacial has generated much debate over their underlying mechanisms. Here, we present joint marine and terrestrial analyses from the Portuguese Margin, showing a succession of cold stadials and warm interstadials over the interval 35–57 ka. Heinrich stadials 4 and 5 contain considerable structure, with a short transitional phase leading to an interval of maximum cooling and aridity, followed by slowly increasing sea-surface temperatures and moisture availability. A climate model experiment reproduces the changes in western Iberia during the final part of Heinrich stadial 4 as a result of the gradual recovery of the Atlantic meridional overturning circulation. What emerges is that Greenland ice-core records do not provide a unique template for warming events, which involved the operation of both fast and slow components of the coupled atmosphere–ocean–sea-ice system, producing adjustments over a range of timescales.

Published
2020

14. Quantitative planktonic foraminifers taphonomy and palaeoceanographic implications over the last 1 My from IODP Sites U1436 and U1437

Author

Mleneck-Vautravers, Maryline J, Mleneck-Vautravers, Maryline J [0000-0003-2534-219X], and Apollo - University of Cambridge Repository

Subjects
lcsh:Geology, planktonic foraminifers, lcsh:Geophysics. Cosmic physics, sub-01, Middle Pleistocene transition, lcsh:QE1-996.5, lcsh:QC801-809, calcium carbonate cycles, intermediate water depth circulation, lcsh:Meteorology. Climatology, lcsh:QC851-999
Abstract

International Ocean Discovery Program Sites U1437 and U1436, two intermediate water depth sites located near the Kuroshio Current were studied for planktonic proxies, shell weights, percent fragments, foraminifers concentrations, and benthic/planktonic ratios. Over the last 1 My, the foraminifers assemblages responded to local temperature changes. The taphonomy of these assemblages limits their usefulness as palaeoclimatic records but greatly inform qualitatively of intermediate water mass changes on each side of the Izu Rise. Carbonate dissolution (CD) is pervasive and always more intense during interglacials at the shallowest Site U1436 to the East. Carbonate preservation improved during glacials after 0.6 Ma at U1437B (West) likely signaling changes within the glacial Antarctic Intermediate Water and therefore, its source water the Glacial North Atlantic Intermediate Water from Marine Isotope Stage 16. The first occurrence of a very large Laurentide ice-sheet at the time is proposed as a potential indirect cause for this observation. Both the intensification of carbonate dissolution during each interglacials from MIS17 onwards and the better preservation during succeeding glacials after that are attributed to the increasing influence of the North Atlantic Deep Water and the Glacial North Atlantic Intermediate Water via the Antarctic Intermediate Water during Interglacial and Glacial intervals, respectively.

Published
2018

15. 100- kyr cyclicity in volcanic ash emplacement: evidence from a 1.1 Myr tephra record from the NW Pacific

Author

Schindlbeck, Julie C., Jegen, Marion, Freundt, Armin, Kutterolf, Steffen, Straub, Susanne M., Mleneck-Vautravers, Maryline J., and McManus, Jerry F.

Subjects
sub-01
Abstract

It is a longstanding observation that the frequency of volcanism periodically changes at times of global climate change. The existence of causal links between volcanism and Earth's climate remains highly controversial, partly because most related studies only cover one glacial cycle. Longer records are available from marine sediment profiles in which the distribution of tephras records frequency changes of explosive arc volcanism with high resolution and time precision. Here we show that tephras of IODP Hole U1437B (northwest Pacific) record a cyclicity of explosive volcanism within the last 1.1 Myr. A spectral analysis of the dataset yields a statistically significant spectral peak at the similar to 100 kyr period, which dominates the global climate cycles since the Middle Pleistocene. A time-domain analysis of the entire eruption and delta O-18 record of benthic foraminifera as climate/sea level proxy shows that volcanism peaks after the glacial maximum and similar to 13 +/- 2 kyr before the delta O-18 minimum right at the glacial/interglacial transition. The correlation is especially good for the last 0.7 Myr. For the period 0.7-1.1 Ma, during the Middle Pleistocene Transition (MPT), the correlation is weaker, since the 100 kyr periodicity in the delta O-18 record diminishes, while the tephra record maintains its strong 100 kyr periodicity.

Published
2018

16. Endless Forams: >34,000 Modern Planktonic Foraminiferal Images for Taxonomic Training and Automated Species Recognition Using Convolutional Neural Networks

Author

Hsiang, Allison Y., primary, Brombacher, Anieke, additional, Rillo, Marina C., additional, Mleneck‐Vautravers, Maryline J., additional, Conn, Stephen, additional, Lordsmith, Sian, additional, Jentzen, Anna, additional, Henehan, Michael J., additional, Metcalfe, Brett, additional, Fenton, Isabel S., additional, Wade, Bridget S., additional, Fox, Lyndsey, additional, Meilland, Julie, additional, Davis, Catherine V., additional, Baranowski, Ulrike, additional, Groeneveld, Jeroen, additional, Edgar, Kirsty M., additional, Movellan, Aurore, additional, Aze, Tracy, additional, Dowsett, Harry J., additional, Miller, C. Giles, additional, Rios, Nelson, additional, and Hull, Pincelli M., additional

Published
2019
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17. Anatomy of Heinrich Layer 1 and its role in the last deglaciation

Author

Hodell, David A., Nicholl, Joseph A., Bontognali, Tomaso R.R., Danino, Steffan, Dorador, Javier, Dowdeswell, Julian A., Einsle, Joshua, Kuhlmann, Holger, Martrat, Belen, Mleneck-Vautravers, Maryline J., Rodríguez-Tovar, Francisco Javier, Röhl, Ursula, European Research Council, Hodell, David [0000-0001-8537-1588], Dowdeswell, Julian [0000-0003-1369-9482], and Apollo - University of Cambridge Repository

Subjects
Deglaciation, Paleoclimate, sub-01, North Atlantic, Heinrich event
Abstract

X-ray fluorescence (XRF) core scanning and X-ray computed tomography data were measured every 1 mm to study the structure of Heinrich Event 1 during the last deglaciation at International Ocean Discovery Program Site U1308. Heinrich Layer 1 comprises two distinct layers of ice-rafted detritus (IRD), which are rich in detrital carbonate (DC) and poor in foraminifera. Each DC layer consists of poorly sorted, coarse-grained clasts of IRD embedded in a dense, fine-grained matrix of glacial rock flour that is partially cemented. The radiocarbon ages of foraminifera at the base of the two layers indicate a difference of 1400 14C years, suggesting that they are two distinct events, but the calendar ages depend upon assumptions made for surface reservoir ages. The double peak indicates at least two distinct stages of discharge of the ice streams that drained the Laurentide Ice Sheet through Hudson Strait during HE1 or, alternatively, the discharge of two independent ice streams containing detrital carbonate. Heinrich Event 1.1 was the larger of the two events and began at ~16.2 ka (15.5–17.1 ka) when the polar North Atlantic was already cold and Atlantic Meridional Overturning Circulation (AMOC) weakened. The younger peak (H1.2) at ~15.1 ka (14.3 to 15.9 ka) was a weaker event than H1.1 that was accompanied by minor cooling. Our results support a complex history for Heinrich Stadial 1 (HS1) with reduction in AMOC during the early part (~20–16.2 ka) possibly driven by melting of European ice sheets, whereas the Laurentide Ice Sheet assumed a greater role during the latter half (~16.2–14.7 ka). ©2017. American Geophysical Union. All Rights Reserved., We thank Nick Evans and Giulio Lampronti for XRD analysis and Vera Lukies (MARUM) for assistance with XRF core scanning. David Naafs and an anonymous referee substantially improved the manuscript through their detailed reviews. This research used data acquired at the XRF Core Scanner Lab at the MARUM–Center for Marine Environmental Sciences, University of Bremen, Germany. This research used samples provided by the International Ocean Discovery Program (IODP). Funding for this research was provided by the UK Natural Environmental Research Council (NERC) to Hodell. The NERC Radiocarbon Facility supported two radiocarbon dates, and Wally Broecker generously supported the remainder with funding from the Comer Family Foundation. Research by Rodríguez-Tovar and Dorador was financed by Project CGL2015-66835-P. B.M. acknowledges support from the CSIC-Ramón y Cajal postdoctoral programme RYC-2013-14073. J.F.E. would like to acknowledge funding under ERC Advanced grant 320750- Nanopaleomagnetism. All data are archived with Pangaea (https://www. pangaea.de/) and NOAA (https://www. ncdc.noaa.gov/data-access/paleoclimatology- data) information systems.

Published
2017

19. Coupled Mg/Ca and clumped isotope analyses of foraminifera provide consistent water temperatures

Author

non-UU output of UU-AW members, Breitenbach, Sebastian F.M., Mleneck-Vautravers, Maryline J., Grauel, Anna Lena, Lo, Li, Bernasconi, Stefano M., Müller, Inigo A., Rolfe, James, Gázquez, Fernando, Greaves, Mervyn, Hodell, David A., non-UU output of UU-AW members, Breitenbach, Sebastian F.M., Mleneck-Vautravers, Maryline J., Grauel, Anna Lena, Lo, Li, Bernasconi, Stefano M., Müller, Inigo A., Rolfe, James, Gázquez, Fernando, Greaves, Mervyn, and Hodell, David A.

Published
2018

20. One Million Years tephra record at IODP Sites U1436 and U1437: Insights into explosive volcanism from the Japan and Izu arcs

Author

Schindlbeck, Julie Christin, Kutterolf, Steffen, Straub, Susanne M., Andrews, Graham D. M., Wang, Kuo-Lung, Mleneck-Vautravers, Maryline J., Schindlbeck, Julie Christin, Kutterolf, Steffen, Straub, Susanne M., Andrews, Graham D. M., Wang, Kuo-Lung, and Mleneck-Vautravers, Maryline J.

Abstract

The 1Myr tephra records of IODP (International Ocean Discovery Program) Holes U1436A and U1437B in the Izu-Bonin fore- and reararc were investigated in order to assess provenance and eruptive volumes, respectively. In total, 304 tephra samples were examined and 260 primary tephra layers were identified. Tephra provenance was determined by means of major and trace element compositions of glass shards and distinguished between Japan and Izu-Bonin arc origin of the tephra layers. A total of 33 marine tephra compositions were correlated to the Japan arc and 227 to the Izu arc. Twenty marine tephra layers were correlated between the two drilling sites. Additionally, we defined eleven correlations of marine tephra deposits to major widespread Japanese eruptions; from the 1.05Ma Shishimuta-Pink Tephra to the 30ka Aira-Tn Tephra, both from Kyushu Island. These eruptions provide independent time markers within the sediment record and six correlations were used to date tephra layers from Japan in Hole U1436A to establish an alternative age model for this hole. Furthermore, the minimum distal tephra volumes of all detected events were calculated, which enabled the comparison of the tephra volumes that derived from the Japan and the Izu-Bonin arcs. For some of the major Japanese eruptions these are the first volume estimations that also include distal deposits. All of the Japanese tephras derived from events with eruption magnitude Mv≥5.6 and three of the investigated eruptions reach magnitudes Mv≥7. Volcanic events of the Izu-Bonin arc have mostly eruption magnitudes Mv≤5.

Published
2018
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21. 100- kyr cyclicity in volcanic ash emplacement: evidence from a 1.1 Myr tephra record from the NW Pacific

Author

Schindlbeck, Julie Christin, Jegen, Marion, Freundt, Armin, Kutterolf, Steffen, Straub, Susanne M., Mleneck-Vautravers, Maryline J., McManus, Jerry F., Schindlbeck, Julie Christin, Jegen, Marion, Freundt, Armin, Kutterolf, Steffen, Straub, Susanne M., Mleneck-Vautravers, Maryline J., and McManus, Jerry F.

Abstract

It is a longstanding observation that the frequency of volcanism periodically changes at times of global climate change. The existence of causal links between volcanism and Earth's climate remains highly controversial, partly because most related studies only cover one glacial cycle. Longer records are available from marine sediment profiles in which the distribution of tephras records frequency changes of explosive arc volcanism with high resolution and time precision. Here we show that tephras of IODP Hole U1437B (northwest Pacific) record a cyclicity of explosive volcanism within the last 1.1 Myr. A spectral analysis of the dataset yields a statistically significant spectral peak at the similar to 100 kyr period, which dominates the global climate cycles since the Middle Pleistocene. A time-domain analysis of the entire eruption and delta O-18 record of benthic foraminifera as climate/sea level proxy shows that volcanism peaks after the glacial maximum and similar to 13 +/- 2 kyr before the delta O-18 minimum right at the glacial/interglacial transition. The correlation is especially good for the last 0.7 Myr. For the period 0.7-1.1 Ma, during the Middle Pleistocene Transition (MPT), the correlation is weaker, since the 100 kyr periodicity in the delta O-18 record diminishes, while the tephra record maintains its strong 100 kyr periodicity.

Published
2018
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22. The missing half of the subduction factory: shipboard results from the Izu rear arc, IODP Expedition 350

Author

Busby, Cathy J., primary, Tamura, Yoshihiko, additional, Blum, Peter, additional, Guèrin, Gilles, additional, Andrews, Graham D. M., additional, Barker, Abigail K., additional, Berger, Julien L. R., additional, Bongiolo, Everton M., additional, Bordiga, Manuela, additional, DeBari, Susan M., additional, Gill, James B., additional, Hamelin, Cedric, additional, Jia, Jihui, additional, John, Eleanor H., additional, Jonas, Ann-Sophie, additional, Jutzeler, Martin, additional, Kars, Myriam A. C., additional, Kita, Zachary A., additional, Konrad, Kevin, additional, Mahony, Susan H., additional, Martini, Michelangelo, additional, Miyazaki, Takashi, additional, Musgrave, Robert J., additional, Nascimento, Debora B., additional, Nichols, Alexander R. L., additional, Ribeiro, Julia M., additional, Sato, Tomoki, additional, Schindlbeck, Julie C., additional, Schmitt, Axel K., additional, Straub, Susanne M., additional, Mleneck-Vautravers, Maryline J., additional, and Yang Yang, Alexandra, additional

Published
2017
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23. The missing half of the subduction factory : shipboard results from the Izu rear arc, IODP expedition 350

Author

Busby, CJ, Tamura, Y, Blum, P, Guerin, G, Andrews, GDM, Barker, Abigail, Berger, Julien LR, Bongiolo, EM, Bordiga, Manuela, DeBari, SM, Gill, JB, Hamelin, C, Jia, Jihui, John, EH, Jonas, Ann-Sophie, Jutzeler, Martin, Kars, Myriam AC, Kita, Zachary A, Konrad, Kevin, Mahony, Susan H, Martini, Michelangelo, Miyazaki, Takashi, Musgrave, Robert J, Nascimento, Debara B, Nichols, Alexander R L, Ribeiro, Julia M, Sato, Tomoki, Schindlbeck, Julie C, Schmitt, Axel K, Straub, Susanne M, Mleneck-Vautravers, Maryline J, Yang, Alexandra Yang, Busby, CJ, Tamura, Y, Blum, P, Guerin, G, Andrews, GDM, Barker, Abigail, Berger, Julien LR, Bongiolo, EM, Bordiga, Manuela, DeBari, SM, Gill, JB, Hamelin, C, Jia, Jihui, John, EH, Jonas, Ann-Sophie, Jutzeler, Martin, Kars, Myriam AC, Kita, Zachary A, Konrad, Kevin, Mahony, Susan H, Martini, Michelangelo, Miyazaki, Takashi, Musgrave, Robert J, Nascimento, Debara B, Nichols, Alexander R L, Ribeiro, Julia M, Sato, Tomoki, Schindlbeck, Julie C, Schmitt, Axel K, Straub, Susanne M, Mleneck-Vautravers, Maryline J, and Yang, Alexandra Yang

Abstract

IODP Expedition 350 was the first to be drilled in the rear part of the Izu-Bonin, although severalsites had been drilled in the arc axis to fore-arc region; the scientific objective was to understand theevolution of the Izu rear arc, by drilling a deep-water volcaniclastic section with a long temporalrecord (Site U1437). The Izu rear arc is dominated by a series of basaltic to dacitic seamount chainsup to ~100-km long roughly perpendicular to the arc front. Dredge samples from these aregeochemically distinct from arc front rocks, and drilling was undertaken to understand this arcasymmetry. Site U1437 lies in an ~20-km-wide basin between two rear arc seamount chains, ~90-kmwest of the arc front, and was drilled to 1804 m below the sea floor (mbsf) with excellent recovery.We expected to drill a volcaniclastic apron, but the section is much more mud-rich than expected(~60%), and the remaining fraction of the section is much finer-grained than predicted from itsposition within the Izu arc, composed half of ashes/tuffs, and half of lapilli tuffs of fine grain size(clasts <3 cm). Volcanic blocks (>6.4 cm) are only sparsely scattered through the lowermost 25% ofthe section, and only one igneous unit was encountered, a rhyolite peperite intrusion at~1390 mbsf. The lowest biostratigaphic datum is at 867 mbsf (~6.5 Ma), the lowest palaeomagneticdatum is at ~1300 mbsf (~9 Ma), and the rhyolite peperite at ~1390 mbsf has yielded a U–Pb zirconconcordia intercept age of (13.6 + 1.6/−1.7) Ma. Both arc front and rear arc sources contributed tothe fine-grained (distal) tephras of the upper 1320 m, but the coarse-grained (proximal) volcani-clastics in the lowest 25% of the section are geochemically similar to the arc front, suggesting arcasymmetry is not recorded in rocks older than ~13 Ma.

Published
2017
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24. Anatomy of Heinrich Layer 1 and its role in the last deglaciation

Author

European Research Council, Hodell, David A., Nicholl, Joseph A.L., Bontognali, Tomaso R.R., Danino, Steffan, Dorador, Javier, Dowdeswell, Julian A., Einsle, Joshua F., Kuhlmann, Holger, Martrat, Belen, Mleneck-Vautravers, Maryline J., Rodríguez-Tovar, Francisco Javier, Röhl, Ursula, European Research Council, Hodell, David A., Nicholl, Joseph A.L., Bontognali, Tomaso R.R., Danino, Steffan, Dorador, Javier, Dowdeswell, Julian A., Einsle, Joshua F., Kuhlmann, Holger, Martrat, Belen, Mleneck-Vautravers, Maryline J., Rodríguez-Tovar, Francisco Javier, and Röhl, Ursula

Abstract

X-ray fluorescence (XRF) core scanning and X-ray computed tomography data were measured every 1 mm to study the structure of Heinrich Event 1 during the last deglaciation at International Ocean Discovery Program Site U1308. Heinrich Layer 1 comprises two distinct layers of ice-rafted detritus (IRD), which are rich in detrital carbonate (DC) and poor in foraminifera. Each DC layer consists of poorly sorted, coarse-grained clasts of IRD embedded in a dense, fine-grained matrix of glacial rock flour that is partially cemented. The radiocarbon ages of foraminifera at the base of the two layers indicate a difference of 1400 14C years, suggesting that they are two distinct events, but the calendar ages depend upon assumptions made for surface reservoir ages. The double peak indicates at least two distinct stages of discharge of the ice streams that drained the Laurentide Ice Sheet through Hudson Strait during HE1 or, alternatively, the discharge of two independent ice streams containing detrital carbonate. Heinrich Event 1.1 was the larger of the two events and began at ~16.2 ka (15.5–17.1 ka) when the polar North Atlantic was already cold and Atlantic Meridional Overturning Circulation (AMOC) weakened. The younger peak (H1.2) at ~15.1 ka (14.3 to 15.9 ka) was a weaker event than H1.1 that was accompanied by minor cooling. Our results support a complex history for Heinrich Stadial 1 (HS1) with reduction in AMOC during the early part (~20–16.2 ka) possibly driven by melting of European ice sheets, whereas the Laurentide Ice Sheet assumed a greater role during the latter half (~16.2–14.7 ka). ©2017. American Geophysical Union. All Rights Reserved.

Published
2017

25. Centennial-scale surface hydrology off Portugal during marine isotope stage 3: Insights from planktonic foraminiferal fauna variability

Author

Vautravers, Maryline J. and Shackleton, Nicholas J.

Subjects
planktonic foraminifera, last glacial, SST
Abstract

The marine isotopic stage 3 (MIS3) at Ocean Drilling Program (ODP) Site 1060 (Gulf Stream) shows both sharp onset and end of interstadials, the existence of very short lived warm events during stadials, and points to differences in detail between the sea surface temperature (SST) record from the western North Atlantic and the atmospheric temperature record inferred from delta O-18 in Greenland ice. Investigating MIS3 and obtaining comparable data from other locations appears crucial. The eastern Atlantic provides well-documented records of climate changes. We have selected a core from off Portugal and use it to examine Dansgaard/Oeschger events (D/O) at centennial-scale resolution (139 years on average between two data points). We have obtained a faunal data set for core MD01-2444, 37 degrees N, 10 degrees W, 2600 m water depth and use a group of species (Globigerina bulloides + Globigerinita glutinata) as a proxy of upwelling intensity driven by trade winds intensity changes. We tentatively relate the variation of this group to a North Atlantic Oscillation-like phenomenon (NAO) off Portugal. We observe that it resembles the rainfall index in the Caribbean as recorded at ODP Site 1002 (Cariaco Basin) which traces the Intertropical Convergence Zone (ITCZ) location through changes of terrigenous inputs. The driest intervals (ITZC to the south) at Site 1002 correspond to intervals of increased upwelling in MD01-2444 as well as the driest periods identified during stadials on similar cores in the area. Because the ITZC to the south is consistent with an El Nino-Southern Oscillation (ENSO+) situation, our study suggests a positive correlation between ENSO-like conditions and NAO-like conditions at a millennial timescale. During interstadial intervals when increased wetness over Cariaco is recorded (ITCZ to the north) and the upwelling in MD01-2444 is decreased, we see from both SSTs and faunal tropical indicators that MD01-2444 site is warm. In addition, interstadials are equally warm through each so-called Bond cycle. This contrasts with the Greenland Ice Core Project (GRIP) record where interstadial peaks are successively cooler through each Bond cycle. This record confirms a link between tropical climate linked to ITCZ position and the climate of southern Europe at millennial timescales, in spite of showing a very good correlation with polar latitudes (GRIP) through delta O-18 on Globigerina bulloides. In addition, because the warmest SSTs and the delta O-18 on G. bulloides are so remarkably different, our work points to changes in seasonality as a strong control over the climatic pattern of the North Atlantic area and the marked influence of winter conditions.

Published
2006

27. Palaeoenvironmental records from the West Antarctic Peninsula drift sediments over the last 75 ka

Author

Hambrey, M.J., Barker, P.F., Barrett, P.J., Bowman, V., Davies, B., Smellie, J.L., Tranter, M., Vautravers, Maryline J., Hodell, David A., Channell, James E. T., Hillenbrand, Claus-Dieter, Hall, Mike, Smith, James, Larter, Robert D., Hambrey, M.J., Barker, P.F., Barrett, P.J., Bowman, V., Davies, B., Smellie, J.L., Tranter, M., Vautravers, Maryline J., Hodell, David A., Channell, James E. T., Hillenbrand, Claus-Dieter, Hall, Mike, Smith, James, and Larter, Robert D.

Abstract

We present results of a multi-proxy study on marine sediment core JR179-PC466 recovered from the crest of a sediment drift off the West Antarctic Peninsula at approximately 2300 m water depth. The 10.45 m-long core consists dominantly of glaciomarine terrigenous sediments, with only traces of calcium carbonate (<1 wt%). Despite the very low abundance of calcareous foraminifera, planktonic shell numbers are sufficient for stable isotope analyses in two-thirds of the samples studied. The core chronology is based on oxygen isotope stratigraphy and correlation of its relative palaeomagnetic intensity (RPI) with a stacked reference curve. According to the age model, core PC466 spans the last 75 ka, with average sedimentation rates of between about 4 and 25 cm ka−1. Planktonic foraminifera abundances fluctuate between 0 and 30 individuals per gram throughout the core, with minima observed during Marine Isotope Stage (MIS) 2 (14–29 ka before present, BP) and MIS4 (57–71 ka BP). Planktonic foraminifera are present in the Holocene but more abundant in sediments deposited during MIS3 (29–57 ka BP), owing to less dilution by terrigenous detritus and/or better carbonate preservation. During MIS3, foraminifera maxima correlate with Antarctic warming events as recorded in the δ18O signal of the EPICA Dronning Maud Land (EDML) ice core. They indicate higher planktonic foraminifera production and better carbonate preservation west of the Antarctic Peninsula during that time. The abundance of ice-rafted detritus (IRD) in core PC466 increased during the last deglaciation between about 19 and 11 ka BP, when numerous icebergs drifted across the core site, thereby releasing IRD. During this time, sea-level rise destabilized the Antarctic Peninsula (APIS) and West Antarctic (WAIS) ice sheets that had advanced onto the shelf during the sea-level low-stand of the Last Glacial Maximum (LGM; c. 19–23 ka BP). Overall, our results demonstrate that it is possible to establish an age model and r

Published
2013

28. Extreme deepening of the Atlantic overturning circulation during deglaciation

Author

Barker, Stephen, Knorr, Gregor, Vautravers, Maryline J., Diz, Paula, Skinner, Luke C., Barker, Stephen, Knorr, Gregor, Vautravers, Maryline J., Diz, Paula, and Skinner, Luke C.

Abstract

Glacial terminations during the late Pleistocene epoch are associated with changes in insolation. They are also punctuated by millennial-scale climate shifts, characterized by a weakening and subsequent strengthening of the Atlantic meridional overturning circulation. This ubiquitous association suggests that these oscillations may be a necessary component of deglaciation. Model simulations have suggested that the period of weakened circulation during these terminal oscillations would be followed by an overshoot of the circulation on its resumption, but this phenomenon has not yet been observed. Here we use radiocarbon measurements of benthic foraminifera and carbonate preservation indices to reconstruct ventilation changes in the deep South Atlantic Ocean over the past 40,000 years. We find evidence for a particularly deep expansion of the Atlantic overturning cell directly following the weak mode associated with Heinrich Stadial 1. Our analysis of an ocean general circulation model simulation suggests that North Atlantic Deep Water export during the expansion was greater than that of interglacial conditions. We find a similar deep expansion duringDansgaard-Oeschger Interstadial Event 8, 38,000 years ago, which followed Heinrich Stadial 4. We conclude that the rise in atmospheric CO2 concentrations and resultant warming associated with an especially weak overturning circulation are sufficient to trigger a switch to a vigorous circulation, but a full transition to interglacial conditions requires additional forcing at an orbital scale.

Published
2010

29. Abrupt wind regime changes in the North Atlantic Ocean during the past 30,000—60,000 years

Author

López-Martínez, Constancia, Grimalt, Joan O., Hoogakker, Babette, Gruetzner, Jens, Vautravers, Maryline J., McCave, I. Nicholas, López-Martínez, Constancia, Grimalt, Joan O., Hoogakker, Babette, Gruetzner, Jens, Vautravers, Maryline J., and McCave, I. Nicholas

Abstract

The inputs of higher plants in Blake Outer Ridge (subtropical western North Atlantic) during marine isotope stage 3 (MIS3) have been recorded at high resolution by quantification of C-23 – C-33 odd carbon numbered n-alkanes and C-20 – C-30 even carbon numbered n-alkan-1-ols in sediment sections of Ocean Drilling Program Site 1060. The changes of these proxies at this open marine site are mainly related to eolian inputs. Their concentrations and fluxes exhibit major abrupt variations that are correlated with Dansgaard/Oeschger (D/O) patterns in Greenland ice cores. The ratios between interstadials and stadials range between 2 and 9 times. The intense flux increases in the D/O stadials are linked to strong enhancements of the westerly wind regime at these subtropical latitudes during stadials. The observed variation was paralleled by changes in wind-blown dust and the polar circulation index in Greenland ice, which is in agreement with previously hypothesized atmospheric teleconnections between northern and middle-low latitudes of the Northern Hemisphere. The close correspondence between sedimentary and ice core proxies is evidence that crossings of the glacial climate thresholds involved major reorganizations of the troposphere. The observed large rise in higher plant biomarkers indicates that climate stabilization in the D/O stadial conditions led to main increases in wind intensity.

Published
2006

35. Hydrological relationship between the North Atlantic Ocean and the Mediterranean Sea during the past 15-75 kyr

Author

Paterne, Martine, Kallel, Nejib, Labeyrie, Laurent, Vautravers, Maryline J., Duplessy, Jean-claude, Rossignol-strick, Martine, Cortijo, Elsa, Arnold, Maurice, Fontugne, Michel, Paterne, Martine, Kallel, Nejib, Labeyrie, Laurent, Vautravers, Maryline J., Duplessy, Jean-claude, Rossignol-strick, Martine, Cortijo, Elsa, Arnold, Maurice, and Fontugne, Michel

Abstract

The Mediterranean Sea hydrology at the time of the Heinrich formation in the North Atlantic Ocean was analyzed by comparing sea surface temperatures (SSTs) and oxygen isotope composition of seawater (delta w) changes during the past 75 kyr in two marine cores. These were compared to the palynological variations derived in the Mediterranean Sea core. During the last glacial the two oceanic SST records show similar and synchronous patterns, with several long-term cooling periods, ending by abrupt SST increases. At the time of the Heinrich events, cold SSTs and low salinity prevailed in the Mediterranean Sea. The freshwater budget was similar to the modern one, permitting the presence of a mixed forest on the Mediterranean borderlands. The post-Heinrich periods are marked by a freshwater budget decrease, limiting oak and fir tree growth in the Mediterranean region. Increase of precipitation or reduction of evaporation is observed before the Heinrich episode, and is associated with a well-developed mixed Mediterranean forest.

Published
1999
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37. Fast and slow components of interstadial warming in the North Atlantic during the last glacial

Author

Margari, Vasiliki, Skinner, Luke C., Menviel, Laurie, Capron, Emilie, Rhodes, Rachael H., Mleneck-Vautravers, Maryline J., Ezat, Mohamed M., Martrat, Belen, Grimalt, Joan O., Hodell, David A., and Tzedakis, Polychronis C.

Subjects
704/106/2738, 13. Climate action, 704/106, article, 14. Life underwater, 704/106/413
Abstract

The abrupt nature of warming events recorded in Greenland ice-cores during the last glacial has generated much debate over their underlying mechanisms. Here, we present joint marine and terrestrial analyses from the Portuguese Margin, showing a succession of cold stadials and warm interstadials over the interval 35–57 ka. Heinrich stadials 4 and 5 contain considerable structure, with a short transitional phase leading to an interval of maximum cooling and aridity, followed by slowly increasing sea-surface temperatures and moisture availability. A climate model experiment reproduces the changes in western Iberia during the final part of Heinrich stadial 4 as a result of the gradual recovery of the Atlantic meridional overturning circulation. What emerges is that Greenland ice-core records do not provide a unique template for warming events, which involved the operation of both fast and slow components of the coupled atmosphere–ocean–sea-ice system, producing adjustments over a range of timescales.

38. Fast and slow components of interstadial warming in the North Atlantic during the last glacial

Author

Margari, Vasiliki, Skinner, Luke C., Menviel, Laurie, Capron, Emilie, Rhodes, Rachael H., Mleneck-Vautravers, Maryline J., Ezat, Mohamed M., Martrat, Belen, Grimalt, Joan O., Hodell, David A., and Tzedakis, Polychronis C.

Subjects
704/106/2738, 13. Climate action, 704/106, article, 14. Life underwater, 704/106/413
Abstract

The abrupt nature of warming events recorded in Greenland ice-cores during the last glacial has generated much debate over their underlying mechanisms. Here, we present joint marine and terrestrial analyses from the Portuguese Margin, showing a succession of cold stadials and warm interstadials over the interval 35–57 ka. Heinrich stadials 4 and 5 contain considerable structure, with a short transitional phase leading to an interval of maximum cooling and aridity, followed by slowly increasing sea-surface temperatures and moisture availability. A climate model experiment reproduces the changes in western Iberia during the final part of Heinrich stadial 4 as a result of the gradual recovery of the Atlantic meridional overturning circulation. What emerges is that Greenland ice-core records do not provide a unique template for warming events, which involved the operation of both fast and slow components of the coupled atmosphere–ocean–sea-ice system, producing adjustments over a range of timescales.

39. 100- kyr cyclicity in volcanic ash emplacement: evidence from a 1.1 Myr tephra record from the NW Pacific.

Author

Schindlbeck JC, Jegen M, Freundt A, Kutterolf S, Straub SM, Mleneck-Vautravers MJ, and McManus JF

Abstract

It is a longstanding observation that the frequency of volcanism periodically changes at times of global climate change. The existence of causal links between volcanism and Earth's climate remains highly controversial, partly because most related studies only cover one glacial cycle. Longer records are available from marine sediment profiles in which the distribution of tephras records frequency changes of explosive arc volcanism with high resolution and time precision. Here we show that tephras of IODP Hole U1437B (northwest Pacific) record a cyclicity of explosive volcanism within the last 1.1 Myr. A spectral analysis of the dataset yields a statistically significant spectral peak at the ~100 kyr period, which dominates the global climate cycles since the Middle Pleistocene. A time-domain analysis of the entire eruption and δ 18 O record of benthic foraminifera as climate/sea level proxy shows that volcanism peaks after the glacial maximum and ∼13 ± 2 kyr before the δ 18 O minimum right at the glacial/interglacial transition. The correlation is especially good for the last 0.7 Myr. For the period 0.7-1.1 Ma, during the Middle Pleistocene Transition (MPT), the correlation is weaker, since the 100 kyr periodicity in the δ 18 O record diminishes, while the tephra record maintains its strong 100 kyr periodicity.

Published
2018
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