Your search keyword '"Grant, Katharine"' showing total 28 results

1. Sea-level change, monsoon variability, and eastern Mediterranean climate over the Late Pleistocene

Author

Grant, Katharine M. and Rohling, Eelco

Subjects

550

Abstract

A new, radiometrically constrained chronology is developed for a continuous, highresolution relative sea-level (RSL) record from the Red Sea that spans the past 500,000 years (500 ka BP). The method is based on indirect correlation of the RSL record with speleothem δ18O records from Soreq cave, Israel (for the period 0-150 ka BP), and from Sanbao Cave, China (for the period 150-500 ka BP). The new RSL record allows ice-volume (sea-level) phase relationships with key climate-system variables to be examined, without bias from icecore or orbital timescales. The effects of ice-volume changes on monsoon variability are also examined. In a separate development, the Soreq-synchronised interval of the RSL record is used to produce residual oxygen isotope (δ18O) records for the eastern Mediterranean; these represent regional environmental signals which are unbiased by ice-volume and sourcewater effects. Results suggest that, over the last glacial cycle, changes in polar climate and ice-volume were tightly coupled, with centennial-scale response times, and rates of sea-level rise reached at least 1.2 m per century during periods of significant ice-volume reduction. Results also suggest that, at the last five glacial terminations, ice-volume changes generally lagged insolation and atmospheric CO2 rises by ~2-7 kyr. This supports the Milankovitch theory of ice-age cycles, and disputes suggestions that CO2-driven feedback processes initiated glacial terminations. It is shown that ice-volume changes can partly explain East Asian monsoon (EAM) variability. In particular, rapid rates of ice-volume reduction at glacial terminations can account for rapid, millennial-scale variability in summer and winter EAM proxies. This observation is consistent with meltwater pulses into the North Atlantic at terminations leading to a delayed intensification of the summer EAM. Evidence also suggests that changes in different monsoon systems of the northern hemisphere were synchronous during periods of ice-volume minima. Regarding the East African summer monsoon (EAfSM), no systematic phasing is observed between precession minima and EAfSM maxima, and so the common use of a 3-kyr lag to date EAfSM records appears to be too generalised. The new palaeo-environmental reconstructions for the Mediterranean presented here suggest that local precipitation did not increase substantially during the deposition of sapropels S1, S3 and S4, whereas net moisture availability may have been elevated during the interval of sapropel S5 deposition, and within colder glacial periods of the last glacial cycle. The most climatically variable period of the last glacial cycle in the Mediterranean (~30-60 ka BP) coincides with marine isotope stage (MIS) 3.

Published

2013

2. Early sea ice decline off East Antarctica at the last glacial–interglacial climate transition

Author

Sadatzki, Henrik, Opdyke, Bradley, Menviel, Laurie, Leventer, Amy, Hope, Janet M., Brocks, Jochen J., Fallon, Stewart, Post, Alexandra L., O’brien, Philip E., Grant, Katharine, Armand, Leanne, Sadatzki, Henrik, Opdyke, Bradley, Menviel, Laurie, Leventer, Amy, Hope, Janet M., Brocks, Jochen J., Fallon, Stewart, Post, Alexandra L., O’brien, Philip E., Grant, Katharine, and Armand, Leanne

Abstract

Antarctic climate warming and atmospheric CO 2 rise during the last deglaciation may be attributed in part to sea ice reduction in the Southern Ocean. Yet, glacial–interglacial Antarctic sea ice dynamics and underlying mechanisms are poorly constrained, as robust sea ice proxy evidence is sparse. Here, we present a molecular biomarker-based sea ice record that resolves the spring/summer sea ice variability off East Antarctica during the past 40 thousand years (ka). Our results indicate that substantial sea ice reduction culminated rapidly and contemporaneously with upwelling of carbon-enriched waters in the Southern Ocean at the onset of the last deglaciation but began at least ~2 ka earlier probably driven by an increasing local integrated summer insolation. Our findings suggest that sea ice reduction and associated feedbacks facilitated stratification breakup and outgassing of CO 2 in the Southern Ocean and warming in Antarctica but may also have played a leading role in initializing these deglacial processes in the Southern Hemisphere.

Published

2023

3. Accurately calibrated X-ray fluorescence core scanning (XRF-CS) record of Ti ∕ Al reveals Early Pleistocene aridity and humidity variability over North Africa and its close relationship to low-latitude insolation

Author

Stratigraphy and paleontology, Stratigraphy & paleontology, Hennekam, Rick, Grant, Katharine M., Rohling, Eelco J., Tjallingii, Rik, Heslop, David, Roberts, Andrew P., Lourens, Lucas J., Reichart, Gert Jan, Stratigraphy and paleontology, Stratigraphy & paleontology, Hennekam, Rick, Grant, Katharine M., Rohling, Eelco J., Tjallingii, Rik, Heslop, David, Roberts, Andrew P., Lourens, Lucas J., and Reichart, Gert Jan

Published

2022

4. Accurately calibrated X-ray fluorescence core scanning (XRF-CS) record of Ti ∕ Al reveals Early Pleistocene aridity and humidity variability over North Africa and its close relationship to low-latitude insolation

Author

Stratigraphy & paleontology, Stratigraphy and paleontology, Hennekam, Rick, Grant, Katharine M., Rohling, Eelco J., Tjallingii, Rik, Heslop, David, Roberts, Andrew P., Lourens, Lucas J., Reichart, Gert Jan, Stratigraphy & paleontology, Stratigraphy and paleontology, Hennekam, Rick, Grant, Katharine M., Rohling, Eelco J., Tjallingii, Rik, Heslop, David, Roberts, Andrew P., Lourens, Lucas J., and Reichart, Gert Jan

Published

2022

5. Advancing Santorini’s tephrostratigraphy: new glass geochemical data and improved marine-terrestrial tephra correlations for the past ∼360 kyrs

Author

Wulf, Sabine, Keller, Jörg, Satow, Christopher, Gertisser, Ralf, Kraml, Michael, Grant, Katharine M., Appelt, Oona, Vakhrameeva, Polina, Koutsodendris, Andreas, Hardiman, Mark, Schulz, Hartmut, Pross, Jörg, Wulf, Sabine, Keller, Jörg, Satow, Christopher, Gertisser, Ralf, Kraml, Michael, Grant, Katharine M., Appelt, Oona, Vakhrameeva, Polina, Koutsodendris, Andreas, Hardiman, Mark, Schulz, Hartmut, and Pross, Jörg

Abstract

The island of Santorini in the Aegean Sea is one of the world’s most violent active volcanoes. Santorini has produced numerous highly explosive eruptions over at least the past ∼360 kyrs that are documented by the island’s unique proximal tephra record. However, the lack of precise eruption ages and comprehensive glass geochemical datasets for proximal tephras has long hindered the development of a detailed distal tephrostratigraphy for Santorini eruptions. In light of these requirements, this study develops a distal tephrostratigraphy for Santorini covering the past ∼360 kyrs, which represents a major step forward towards the establishment of a tephrostratigraphic framework for the Eastern Mediterranean region. We present new EPMA glass geochemical data of proximal tephra deposits from twelve Plinian and numerous Inter-Plinian Santorini eruptions and use this dataset to establish assignments of 28 distal marine tephras from three Aegean Sea cores (KL49, KL51 and LC21) to specific volcanic events. Based on interpolation of sapropel core chronologies we provide new eruption age estimates for correlated Santorini tephras, including dates for major Plinian eruptions, Upper Scoriae 1 (80.8 ± 2.9 ka), Vourvoulos (126.5 ± 2.9 ka), Middle Pumice (141.0 ± 2.6 ka), Cape Thera (156.9 ± 2.3 ka), Lower Pumice 2 (176.7 ± 0.6 ka), Lower Pumice 1 (185.7 ± 0.7 ka), and Cape Therma 3 (200.2 ± 0.9 ka), but also for 17 Inter-Plinian events. Older Plinian and Inter-Plinian activity between ∼310 ka and 370 ka, documented in the distal terrestrial setting of Tenaghi Philippon (NE Greece), is independently dated by palynostratigraphy and complements the distal Santorini tephrostratigraphic record.

Published

2020

6. Detection and characterisation of Eemian marine tephra layers within the sapropel S5 sediments of the Aegean and Levantine Seas

Author

Satow, Christopher, Grant, Katharine M., Wulf, Sabine, Schulz, Hartmut, Mallon, Addison, Matthews, Ian, Lowe, John, Satow, Christopher, Grant, Katharine M., Wulf, Sabine, Schulz, Hartmut, Mallon, Addison, Matthews, Ian, and Lowe, John

Abstract

The Eemian was the last interglacial period (~130 to 115 ka BP) to precede the current interglacial. In Eastern Mediterranean marine sediments, it is marked by a well-developed and organic-rich “sapropel” layer (S5), which is thought to reflect an intensification and northward migration of the African monsoon rain belt over orbital timescales. However, despite the importance of these sediments, very little proxy-independent stratigraphic information is available to enable rigorous correlation of these sediments across the region. This paper presents the first detailed study of visible and non-visible (cryptotephra) layers found within these sediments at three marine coring sites: ODP Site 967B (Levantine Basin), KL51 (South East of Crete) and LC21 (Southern Aegean Sea). Major element analyses of the glass component were used to distinguish four distinct tephra events of Santorini (e.g., Vourvoulos eruption) and possible Anatolian provenance occurring during the formation of S5. Interpolation of core chronologies provides provisional eruption ages for the uppermost tephra (unknown Santorini, 121.8 ± 2.9 ka) and lowermost tephra (Anatolia or Kos/Yali/Nisyros, 126.4 ± 2.9 ka). These newly characterised tephra deposits have also been set into the regional tephrostratigraphy to illustrate the potential to precisely synchronise marine proxy records with their terrestrial counterparts, and also contribute to the establishment of a more detailed volcanic history of the Eastern Mediterranean.

Published

2020

7. A model for archaeologically relevant Holocene climate impacts in the Aegean-Levantine region (easternmost Mediterranean)

Author

Rohling, Eelco J., Marino, Gianluca, Grant, Katharine M., Mayewski, Paul A., Weninger, Bernhard, Rohling, Eelco J., Marino, Gianluca, Grant, Katharine M., Mayewski, Paul A., and Weninger, Bernhard

Abstract

A repeating pattern of multi-centennial-scale Holocene climate events has been widely (globally) documented, and they were termed Rapid Climate Change (RCC) events. Non-seasalt potassium ion (K+) series in Greenland ice cores provide well-constrained timings for the events, and a direct timing relationship has been inferred between these events and the frequency of northerly cold polar/continental air outbreaks over the eastern Mediterranean Sea through gaps in the mountain ranges along the northern margin of the basin. There also appears to be a remarkable timing agreement with major archaeological turnover events in the Aegean/Levantine region. Yet no physically consistent assessment exists for understanding the regional climatic impacts of the events around this critical region. We present a simple 2-dimensional Lagrangian model, which yields a broad suite of physically coherent simulations of the impacts of frequency changes in winter-time northerly air outbreaks over the Aegean/Levantine region. We validate this with existing reconstructions from palaeoclimate proxy data, with emphasis on well-validated sea-surface temperature reconstructions and a highly resolved cave speleothem stable oxygen isotope record from Lebanon. Given that the RCCs were clearly marked by negative sea surface temperature anomalies in the region, we find that the predominant climatic impacts of this winter-time mechanism were cold and wet, in contrast with intercalated warmer and more arid conditions of non-RCC periods. More specifically, the RCCs are found to be periods of highly variable conditions, with an overall tendency toward cold and wet conditions with potential for flash flooding and for episodic snow-cover at low altitudes, at least in the lower-altitude (lower 1-1.5 km) regions of Crete and the Levant. The modelled winter-anomaly process cannot address underlying longer-term, astronomically forced trends, or the relatively warm and arid anomalies in between RCCs. The latter

Published

2019

8. Asynchronous Antarctic and Greenland ice-volume contributions to the last interglacial sea-level highstand

Author

Rohling, Eelco, Hibbert, Fiona, Grant, Katharine, Galaasen, Eirik V., Irvalı, Nil, Kleiven, Helga F., Marino, Gianluca, Ninnemann, Ulysses, Roberts, Andrew P., Rosenthal, Y, Schulz, H, Williams, Felicity, Yu, Jimin, Rohling, Eelco, Hibbert, Fiona, Grant, Katharine, Galaasen, Eirik V., Irvalı, Nil, Kleiven, Helga F., Marino, Gianluca, Ninnemann, Ulysses, Roberts, Andrew P., Rosenthal, Y, Schulz, H, Williams, Felicity, and Yu, Jimin

Abstract

The last interglacial (LIG; ~130 to ~118 thousand years ago, ka) was the last time global sea level rose well above the present level. Greenland Ice Sheet (GrIS) contributions were insufficient to explain the highstand, so that substantial Antarctic Ice Sheet (AIS) reduction is implied. However, the nature and drivers of GrIS and AIS reductions remain enigmatic, even though they may be critical for understanding future sea-level rise. Here we complement existing records with new data, and reveal that the LIG contained an AIS-derived highstand from ~129.5 to ~125 ka, a lowstand centred on 125–124 ka, and joint AIS + GrIS contributions from ~123.5 to ~118 ka. Moreover, a dual substructure within the first highstand suggests temporal variability in the AIS contributions. Implied rates of sea-level rise are high (up to several meters per century; m c−1 ), and lend credibility to high rates inferred by ice modelling under certain ice-shelf instability parameterisations.

Published

2019

9. A model for archaeologically relevant Holocene climate impacts in the Aegean-Levantine region (easternmost Mediterranean)

Author

Rohling, Eelco, Marino, Gianluca, Grant, Katharine, Mayewski, Paul, Weninger, Bernhard, Rohling, Eelco, Marino, Gianluca, Grant, Katharine, Mayewski, Paul, and Weninger, Bernhard

Abstract

A repeating pattern of multi-centennial-scale Holocene climate events has been widely (globally) documented, and they were termed Rapid Climate Change (RCC) events. Non-seasalt potassium ion (K+) series in Greenland ice cores provide well-constrained timings for the events, and a direct timing relationship has been inferred between these events and the frequency of northerly cold polar/continental air outbreaks over the eastern Mediterranean Sea through gaps in the mountain ranges along the northern margin of the basin. There also appears to be a remarkable timing agreement with major archaeological turnover events in the Aegean/Levantine region. Yet no physically consistent assessment exists for understanding the regional climatic impacts of the events around this critical region. We present a simple 2-dimensional Lagrangian model, which yields a broad suite of physically coherent simulations of the impacts of frequency changes in winter-time northerly air outbreaks over the Aegean/Levantine region. We validate this with existing reconstructions from palaeoclimate proxy data, with emphasis on well-validated sea-surface temperature reconstructions and a highly resolved cave speleothem stable oxygen isotope record from Lebanon. Given that the RCCs were clearly marked by negative sea surface temperature anomalies in the region, we find that the predominant climatic impacts of this winter-time mechanism were “cold and wet,” in contrast with intercalated “warmer and more arid” conditions of non-RCC periods. More specifically, the RCCs are found to be periods of highly variable conditions, with an overall tendency toward cold and wet conditions with potential for flash flooding and for episodic snow-cover at low altitudes, at least in the lower-altitude (lower 1–1.5 km) regions of Crete and the Levant. The modelled winter-anomaly process cannot address underlying longer-term, astronomically forced trends, or the relatively warm and arid anomalies in between RCCs. The lat

Published

2019

10. Advancing Santorini’s tephrostratigraphy: new glass geochemical data and improved marine-terrestrial tephra correlations for the past ∼360 kyrs

Author

Wulf, Sabine, Keller, Jörg, Satow, Christopher, Gertisser, Ralf, Kraml, Michael, Grant, Katharine M., Appelt, Oona, Vakhrameeva, Polina, Koutsodendris, Andreas, Hardiman, Mark, Schulz, Hartmut, Pross, Jörg, Wulf, Sabine, Keller, Jörg, Satow, Christopher, Gertisser, Ralf, Kraml, Michael, Grant, Katharine M., Appelt, Oona, Vakhrameeva, Polina, Koutsodendris, Andreas, Hardiman, Mark, Schulz, Hartmut, and Pross, Jörg

Abstract

The island of Santorini in the Aegean Sea is one of the world’s most violent active volcanoes. Santorini has produced numerous highly explosive eruptions over at least the past ∼360 kyrs that are documented by the island’s unique proximal tephra record. However, the lack of precise eruption ages and comprehensive glass geochemical datasets for proximal tephras has long hindered the development of a detailed distal tephrostratigraphy for Santorini eruptions. In light of these requirements, this study develops a distal tephrostratigraphy for Santorini covering the past ∼360 kyrs, which represents a major step forward towards the establishment of a tephrostratigraphic framework for the Eastern Mediterranean region. We present new EPMA glass geochemical data of proximal tephra deposits from twelve Plinian and numerous Inter-Plinian Santorini eruptions and use this dataset to establish assignments of 28 distal marine tephras from three Aegean Sea cores (KL49, KL51 and LC21) to specific volcanic events. Based on interpolation of sapropel core chronologies we provide new eruption age estimates for correlated Santorini tephras, including dates for major Plinian eruptions, Upper Scoriae 1 (80.8 ± 2.9 ka), Vourvoulos (126.5 ± 2.9 ka), Middle Pumice (141.0 ± 2.6 ka), Cape Thera (156.9 ± 2.3 ka), Lower Pumice 2 (176.7 ± 0.6 ka), Lower Pumice 1 (185.7 ± 0.7 ka), and Cape Therma 3 (200.2 ± 0.9 ka), but also for 17 Inter-Plinian events. Older Plinian and Inter-Plinian activity between ∼310 ka and 370 ka, documented in the distal terrestrial setting of Tenaghi Philippon (NE Greece), is independently dated by palynostratigraphy and complements the distal Santorini tephrostratigraphic record.

Published

2019

11. Differences between the last two glacial maxima and implications for ice-sheet, δ18O, and sea-level reconstructions

Author

Rohling, Eelco J, Hibbert, Fiona D., Williams, Felicity H., Grant, Katharine M, Marino, Gianluca, Foster, Gavin L, Hennekam, Rick, de Lange, Gert J., Roberts, Andrew P., Yu, Jimin, Webster, Jody M., Yokoyama, Yusuke, Rohling, Eelco J, Hibbert, Fiona D., Williams, Felicity H., Grant, Katharine M, Marino, Gianluca, Foster, Gavin L, Hennekam, Rick, de Lange, Gert J., Roberts, Andrew P., Yu, Jimin, Webster, Jody M., and Yokoyama, Yusuke

Published

2017

12. A 3 million year index for North African humidity/aridity and the implication of potential pan-African Humid periods

Author

Stratigraphy and paleontology, Stratigraphy & paleontology, Grant, Katharine M, Rohling, Eelco J, Westerhold, Thomas, Zabel, Matthias, Heslop, David, Konijnendijk, Tiuri, Lourens, Lucas, Stratigraphy and paleontology, Stratigraphy & paleontology, Grant, Katharine M, Rohling, Eelco J, Westerhold, Thomas, Zabel, Matthias, Heslop, David, Konijnendijk, Tiuri, and Lourens, Lucas

Published

2017

13. A 3 million year index for North African humidity/aridity and the implication of potential pan-African Humid periods

Author

Stratigraphy & paleontology, Stratigraphy and paleontology, Grant, Katharine M, Rohling, Eelco J, Westerhold, Thomas, Zabel, Matthias, Heslop, David, Konijnendijk, Tiuri, Lourens, Lucas, Stratigraphy & paleontology, Stratigraphy and paleontology, Grant, Katharine M, Rohling, Eelco J, Westerhold, Thomas, Zabel, Matthias, Heslop, David, Konijnendijk, Tiuri, and Lourens, Lucas

Published

2017

14. Late glacial initiation of Holocene eastern Mediterranean sapropel formation

Author

Grimm, Rosina, Maier-Reimer, Ernst, Mikolajewicz, Uwe, Schmiedl, Gerhard, Müller-Navarra, Katharina, Adloff, Fanny, Grant, Katharine M, Ziegler, Martin, Lourens, Lucas J, Emeis, Kay-Christian, Grimm, Rosina, Maier-Reimer, Ernst, Mikolajewicz, Uwe, Schmiedl, Gerhard, Müller-Navarra, Katharina, Adloff, Fanny, Grant, Katharine M, Ziegler, Martin, Lourens, Lucas J, and Emeis, Kay-Christian

Published

2015

15. Late glacial initiation of Holocene eastern Mediterranean sapropel formation

Author

Stratigraphy and paleontology, Stratigraphy & paleontology, Grimm, Rosina, Maier-Reimer, Ernst, Mikolajewicz, Uwe, Schmiedl, Gerhard, Müller-Navarra, Katharina, Adloff, Fanny, Grant, Katharine M, Ziegler, Martin, Lourens, Lucas J, Emeis, Kay-Christian, Stratigraphy and paleontology, Stratigraphy & paleontology, Grimm, Rosina, Maier-Reimer, Ernst, Mikolajewicz, Uwe, Schmiedl, Gerhard, Müller-Navarra, Katharina, Adloff, Fanny, Grant, Katharine M, Ziegler, Martin, Lourens, Lucas J, and Emeis, Kay-Christian

Published

2015

16. Bipolar seesaw control on last interglacial sea level

Author

Marino, Gianluca, Rohling, Eelco, Rodriguez Sanz, Laura, Grant, Katharine, Heslop, David, Roberts, Andrew, Stanford, J. D, Yu, Jimin, Marino, Gianluca, Rohling, Eelco, Rodriguez Sanz, Laura, Grant, Katharine, Heslop, David, Roberts, Andrew, Stanford, J. D, and Yu, Jimin

Abstract

Our current understanding of ocean-atmosphere-cryosphere interactions at ice-age terminations relies largely on assessments of the most recent (last) glacial-interglacial transition, Termination I (T-I). But the extent to which T-I is representative of previous terminations remains unclear. Testing the consistency of termination processes requires comparison of time series of critical climate parameters with detailed absolute and relative age control. However, such age control has been lacking for even the penultimate glacial termination (T-II), which culminated in a sea-level highstand during the last interglacial period that was several metres above present. Here we show that Heinrich Stadial 11 (HS11), a prominent North Atlantic cold episode, occurred between 135 ± 1 and 130 ± 2 thousand years ago and was linked with rapid sea-level rise during T-II. Our conclusions are based on new and existing data for T-II and the last interglacial that we collate onto a single, radiometrically constrained chronology. The HS11 cold episode punctuated T-II and coincided directly with a major deglacial meltwater pulse, which predominantly entered the North Atlantic Ocean and accounted for about 70 per cent of the glacial-interglacial sea-level rise. We conclude that, possibly in response to stronger insolation and CO 2 forcing earlier in T-II, the relationship between climate and ice-volume changes differed fundamentally from that of T-I. In T-I, the major sea-level rise clearly post-dates Heinrich Stadial 1. We also find that HS11 coincided with sustained Antarctic warming, probably through a bipolar seesaw temperature response, and propose that this heat gain at high southern latitudes promoted Antarctic ice-sheet melting that fuelled the last interglacial sea-level peak.

Published

2015

17. Sea-level variability over five glacial cycles

Author

Grant, Katharine, Rohling, Eelco, Ramsey, Christopher Bronk, Cheng, Hai, Edwards, R, Florindo, Fabio, Heslop, David, Marra, Fabrizio, Roberts, Andrew, Tamisiea, Mark E., Williams, Frances, Grant, Katharine, Rohling, Eelco, Ramsey, Christopher Bronk, Cheng, Hai, Edwards, R, Florindo, Fabio, Heslop, David, Marra, Fabrizio, Roberts, Andrew, Tamisiea, Mark E., and Williams, Frances

Abstract

Research on global ice-volume changes during Pleistocene glacial cycles is hindered by a lack of detailed sea-level records for time intervals older than the last interglacial. Here we present the first robustly dated, continuous and highly resolved records of Red Sea sea level and rates of sea-level change over the last 500,000 years, based on tight synchronization to an Asian monsoon record. We observe maximum 'natural' (pre-anthropogenic forcing) sea-level rise rates below 2 m per century following periods with up to twice present-day ice volumes, and substantially higher rise rates for greater ice volumes. We also find that maximum sea-level rise rates were attained within 2 kyr of the onset of deglaciations, for 85% of such events. Finally, multivariate regressions of orbital parameters, sea-level and monsoon records suggest that major meltwater pulses account for millennial-scale variability and insolation-lagged responses in Asian monsoon records.

Published

2014

18. Sea-level and deep-sea-temperature variability over the past 5.3 million years

Author

Rohling, Eelco, Foster, Gavin L, Grant, Katharine, Marino, Gianluca, Roberts, Andrew, Tamisiea, Mark E., Williams, Frances, Rohling, Eelco, Foster, Gavin L, Grant, Katharine, Marino, Gianluca, Roberts, Andrew, Tamisiea, Mark E., and Williams, Frances

Abstract

Ice volume (and hence sea level) and deep-sea temperature are key measures of global climate change. Sea level has been documented using several independent methods over the past 0.5 million years (Myr). Older periods, however, lack such independent validation; all existing records are related to deep-sea oxygen isotope (Î́ 18 O) data that are influenced by processes unrelated to sea level. For deep-sea temperature, only one continuous high-resolution (Mg/Ca-based) record exists, with related sea-level estimates, spanning the past 1.5 Myr. Here we present a novel sea-level reconstruction, with associated estimates of deep-sea temperature, which independently validates the previous 0-1.5 Myr reconstruction and extends it back to 5.3 Myr ago. We find that deep-sea temperature and sea level generally decreased through time, but distinctly out of synchrony, which is remarkable given the importance of ice-albedo feedbacks on the radiative forcing of climate. In particular, we observe a large temporal offset during the onset of Plio-Pleistocene ice ages, between a marked cooling step at 2.73 Myr ago and the first major glaciation at 2.15 Myr ago. Last, we tentatively infer that ice sheets may have grown largest during glacials with more modest reductions in deep-sea temperature.

Published

2014

19. Paleoclimate variability in the Mediterranean and Red Sea regions during the last 500,000 years: Implications for hominin migrations

Author

Rohling, Eelco, Roberts, Andrew, Grant, Katharine, Larrasoana, Juan C, Rohling, Eelco, Roberts, Andrew, Grant, Katharine, and Larrasoana, Juan C

Abstract

The Mediterranean-Red Sea region has been critical to dispersal of hominids and other species between Africa and the rest of the world, and climate and sea level are thought to be key controls on migration pathways. Assessing climate variations, we highli

Published

2013

20. A geological perspective on potential future sea-level rise

Author

Rohling, Eelco, Haigh, Ivan D., Foster, Gavin, Roberts, Andrew, Grant, Katharine, Rohling, Eelco, Haigh, Ivan D., Foster, Gavin, Roberts, Andrew, and Grant, Katharine

Abstract

During ice-age cycles, continental ice volume kept pace with slow, multi-millennial scale, changes in climate forcing. Today, rapid greenhouse gas (GHG) increases have outpaced ice-volume responses, likely committing us to > 9 m of long-term sea-level ris

Published

2013

21. Sea-level change, monsoon variability, and eastern Mediterranean climate over the Late Pleistocene

Author

Grant, Katharine M.. and Grant, Katharine M..

Abstract

A new, radiometrically constrained chronology is developed for a continuous, highresolution relative sea-level (RSL) record from the Red Sea that spans the past 500,000 years (500 ka BP). The method is based on indirect correlation of the RSL record with speleothem ?18O records from Soreq cave, Israel (for the period 0-150 ka BP), and from Sanbao Cave, China (for the period 150-500 ka BP). The new RSL record allows ice-volume (sea-level) phase relationships with key climate-system variables to be examined, without bias from icecore or orbital timescales. The effects of ice-volume changes on monsoon variability are also examined. In a separate development, the Soreq-synchronised interval of the RSL record is used to produce residual oxygen isotope (?18O) records for the eastern Mediterranean; these represent regional environmental signals which are unbiased by ice-volume and sourcewater effects. Results suggest that, over the last glacial cycle, changes in polar climate and ice-volume were tightly coupled, with centennial-scale response times, and rates of sea-level rise reached at least 1.2 m per century during periods of significant ice-volume reduction. Results also suggest that, at the last five glacial terminations, ice-volume changes generally lagged insolation and atmospheric CO2 rises by ~2-7 kyr. This supports the Milankovitch theory of ice-age cycles, and disputes suggestions that CO2-driven feedback processes initiated glacial terminations. It is shown that ice-volume changes can partly explain East Asian monsoon (EAM) variability. In particular, rapid rates of ice-volume reduction at glacial terminations can account for rapid, millennial-scale variability in summer and winter EAM proxies. This observation is consistent with meltwater pulses into the North Atlantic at terminations leading to a delayed intensification of the summer EAM. Evidence also suggests that changes in different monsoon systems of the northern hemisphere were synchro

Published

2013

22. Rapid coupling between ice volume and polar temperature over the past 150,000 years

Author

Grant, Katharine, Rohling, Eelco, Bar-Matthews, M, Ayalon, A, Medina-Elizalde, M, Bronk Ramsey, C., Satow, C, Roberts, Andrew, Grant, Katharine, Rohling, Eelco, Bar-Matthews, M, Ayalon, A, Medina-Elizalde, M, Bronk Ramsey, C., Satow, C, and Roberts, Andrew

Abstract

Current global warming necessitates a detailed understanding of the relationships between climate and global ice volume. Highly resolved and continuous sea-level records are essential for quantifying ice-volume changes. However, an unbiased study of the timing of past ice-volume changes, relative to polar climate change, has so far been impossible because available sea-level records either were dated by using orbital tuning or ice-core timescales, or were discontinuous in time. Here we present an independent dating of a continuous, high-resolution sea-level record1, 2 in millennial-scale detail throughout the past 150,000 years. We find that the timing of ice-volume fluctuations agrees well with that of variations in Antarctic climate and especially Greenland climate. Amplitudes of ice-volume fluctuations more closely match Antarctic (rather than Greenland) climate changes. Polar climate and ice-volume changes, and their rates of change, are found to covary within centennial response times. Finally, rates of sea-level rise reached at least 1.2 m per century during all major episodes of ice-volume reduction.

Published

2012

23. Volcanic ash layers illuminate the resilience of Neanderthals and early modern humans to natural hazards

Author

Lowe, J, Barton , Nick, Blockley, Simon, Ramsey, Christopher Bronk, Cullen, Victoria L, Davies, William, Gamble, Clive, Grant, Katharine, Hardiman, Mark, Housley, Rupert, Roberts, Andrew, Rohling, Eelco, Lane, Christine, Lowe, J, Barton , Nick, Blockley, Simon, Ramsey, Christopher Bronk, Cullen, Victoria L, Davies, William, Gamble, Clive, Grant, Katharine, Hardiman, Mark, Housley, Rupert, Roberts, Andrew, Rohling, Eelco, and Lane, Christine

Abstract

Marked changes in human dispersal and development during the Middle to Upper Paleolithic transition have been attributed to massive volcanic eruption and/or severe climatic deterioration. We test this concept using records of volcanic ash layers of the Campanian Ignimbrite eruption dated to ca. 40,000 y ago (40 ka B.P.). The distribution of the Campanian Ignimbrite has been enhanced by the discovery of cryptotephra deposits (volcanic ash layers that are not visible to the naked eye) in archaeological cave sequences. They enable us to synchronize archaeological and paleoclimatic records through the period of transition from Neanderthal to the earliest anatomically modern human populations in Europe. Our results confirm that the combined effects of a major volcanic eruption and severe climatic cooling failed to have lasting impacts on Neanderthals or early modern humans in Europe. We infer that modern humans proved a greater competitive threat to indigenous populations than natural disasters.

Published

2012

24. Sensitivity of Red Sea circulation to sea level and insolation forcing during the last interglacial

Author

Trommer, G, Siccha, M, Rohling, Eelco, Grant, Katharine, van der Meer, Marcel T.J., Schouten, Stefan, Baranowski, U., Kucera, M, Trommer, G, Siccha, M, Rohling, Eelco, Grant, Katharine, van der Meer, Marcel T.J., Schouten, Stefan, Baranowski, U., and Kucera, M

Abstract

This study investigates the response of Red Sea circulation to sea level and insolation changes during termination II and across the last interglacial, in comparison with termination I and the Holocene. Sediment cores from the central and northern part of the Red Sea were investigated by micropaleontological and geochemical proxies. The recovery of the planktic foraminiferal fauna following high salinities during marine isotopic stage (MIS) 6 took place at similar sea-level stand (∼50 m below present day), and with a similar species succession, as during termination I. This indicates a consistent sensitivity of the basin oceanography and the plankton ecology to sea-level forcing. Based on planktic foraminifera, we find that increased water exchange with the Gulf of Aden especially occurred during the sea-level highstand of interglacial MIS 5e. From MIS 6 to the peak of MIS 5e, northern Red Sea sea surface temperature (SST) increased from 21 °C to 25 °C, with about 3 °C of this increase taking place during termination II. Changes in planktic foraminiferal assemblages indicate that the development of the Red Sea oceanography during MIS 5 was strongly determined by insolation and monsoon strength. The SW Monsoon summer circulation mode was enhanced during the termination, causing low productivity in northern central Red Sea core KL9, marked by high abundance of G. sacculifer, which ĝ€" as in the Holocene ĝ€" followed summer insolation. Core KL11 records the northern tip of the intruding intermediate water layer from the Gulf of Aden and its planktic foraminifera fauna shows evidence for elevated productivity during the sea-level highstand in the southern central Red Sea. By the time of MIS 5 sea-level regression, elevated organic biomarker BIT values suggest denudation of soil organic matter into the Red Sea and high abundances of G. glutinata, and high reconstructed chlorophyll-a values, indicate an intensified NE Monsoon winter circulation mode. Our results imply tha

Published

2011

25. Millennial scale variability in Red Sea circulation in response to Holocene insolation forcing

Author

Trommer, G, Siccha, M, Rohling, Eelco, Grant, Katharine, van der Meer, Marcel T.J., Schouten, Stefan, Hemleben, Ch, Kucera, M, Trommer, G, Siccha, M, Rohling, Eelco, Grant, Katharine, van der Meer, Marcel T.J., Schouten, Stefan, Hemleben, Ch, and Kucera, M

Published

2010

26. High rates of sea-level rise during the last interglacial period

Author

Rohling, Eelco, Grant, Katharine, Hemleben, Ch, Siddall, M., Hoogakker, B.A.A., Bolshaw, M, Kucera, M, Rohling, Eelco, Grant, Katharine, Hemleben, Ch, Siddall, M., Hoogakker, B.A.A., Bolshaw, M, and Kucera, M

Abstract

The last interglacial period, Marine Isotope Stage (MIS) 5e, was characterized by global mean surface temperatures that were at least 2 8C warmer than present. Mean sea level stood 4-6m higher than modern sea level, with an important contribution from a reduction of the Greenland ice sheet. Although some fossil reef data indicate sea-level fluctuations of up to 10m around the mean, so far it has not been possible to constrain the duration and rates of change of these shorter-term variations. Here, we use a combination of a continuous high-resolution sea-level record, based on the stable oxygen isotopes of planktonic foraminifera from the central Red Sea, and age constraints from coral data to estimate rates of sea-level change during MIS-5e. We find average rates of sea-level rise of 1.6m per century. As global mean temperatures during MIS-5e were comparable to projections for future climate change under the influence of anthropogenic greenhouse-gas emissions, these observed rates of sea-level change inform the ongoing debate about high versus low rates of sea-level rise in the coming century.

Published

2008

27. Secular and orbital-scale variability of equatorial Indian Ocean summer monsoon winds during the late Miocene

Author

Bolton, Clara T., Gray, Emmeline, Kuhnt, Wolfgang, Holbourn, Ann E., Lübbers, Julia, Grant, Katharine, Tachikawa, Kazuyo, Marino, Gianluca, Rohling, Eelco J., Sarr, Anta-Clarisse, Andersen, Nils, Bolton, Clara T., Gray, Emmeline, Kuhnt, Wolfgang, Holbourn, Ann E., Lübbers, Julia, Grant, Katharine, Tachikawa, Kazuyo, Marino, Gianluca, Rohling, Eelco J., Sarr, Anta-Clarisse, and Andersen, Nils

Abstract

In the modern northern Indian Ocean, biological productivity is intimately linked to near-surface oceanographic dynamics forced by the South Asian, or Indian, monsoon. In the late Pleistocene, this strong seasonal signal is transferred to the sedimentary record in the form of strong variance in the precession band (19–23 kyr), because precession dominates low-latitude insolation variations and drives seasonal contrast in oceanographic conditions. In addition, internal climate system feedbacks (e.g. ice-sheet albedo, carbon cycle, topography) play a key role in monsoon variability. Little is known about orbital-scale monsoon variability in the pre-Pleistocene, when atmospheric CO2 levels and global temperatures were higher. In addition, many questions remain open regarding the timing of the initiation and intensification of the South Asian monsoon during the Miocene, an interval of significant global climate change that culminated in bipolar glaciation. Here, we present new high-resolution (<1 kyr) records of export productivity and sediment accumulation from International Ocean Discovery Program Site U1443 in the southernmost part of the Bay of Bengal spanning the late Miocene (9 to 5 million years ago). Underpinned by a new orbitally tuned benthic isotope stratigraphy, we use X-ray fluorescence-derived biogenic barium variations to discern productivity trends and rhythms. Results show strong eccentricity-modulated precession-band productivity variations throughout the late Miocene, interpreted to reflect insolation forcing of summer monsoon wind strength in the equatorial Indian Ocean. On long timescales, our data support the interpretation that South Asian monsoon winds were already established by 9 Ma in the equatorial sector of the Indian Ocean, with no apparent intensification over the latest Miocene.

28. Secular and orbital-scale variability of equatorial Indian Ocean summer monsoon winds during the late Miocene

Author

Bolton, Clara T., Gray, Emmeline, Kuhnt, Wolfgang, Holbourn, Ann E., Lübbers, Julia, Grant, Katharine, Tachikawa, Kazuyo, Marino, Gianluca, Rohling, Eelco J., Sarr, Anta-Clarisse, Andersen, Nils, Bolton, Clara T., Gray, Emmeline, Kuhnt, Wolfgang, Holbourn, Ann E., Lübbers, Julia, Grant, Katharine, Tachikawa, Kazuyo, Marino, Gianluca, Rohling, Eelco J., Sarr, Anta-Clarisse, and Andersen, Nils

Abstract

In the modern northern Indian Ocean, biological productivity is intimately linked to near-surface oceanographic dynamics forced by the South Asian, or Indian, monsoon. In the late Pleistocene, this strong seasonal signal is transferred to the sedimentary record in the form of strong variance in the precession band (19–23 kyr), because precession dominates low-latitude insolation variations and drives seasonal contrast in oceanographic conditions. In addition, internal climate system feedbacks (e.g. ice-sheet albedo, carbon cycle, topography) play a key role in monsoon variability. Little is known about orbital-scale monsoon variability in the pre-Pleistocene, when atmospheric CO2 levels and global temperatures were higher. In addition, many questions remain open regarding the timing of the initiation and intensification of the South Asian monsoon during the Miocene, an interval of significant global climate change that culminated in bipolar glaciation. Here, we present new high-resolution (<1 kyr) records of export productivity and sediment accumulation from International Ocean Discovery Program Site U1443 in the southernmost part of the Bay of Bengal spanning the late Miocene (9 to 5 million years ago). Underpinned by a new orbitally tuned benthic isotope stratigraphy, we use X-ray fluorescence-derived biogenic barium variations to discern productivity trends and rhythms. Results show strong eccentricity-modulated precession-band productivity variations throughout the late Miocene, interpreted to reflect insolation forcing of summer monsoon wind strength in the equatorial Indian Ocean. On long timescales, our data support the interpretation that South Asian monsoon winds were already established by 9 Ma in the equatorial sector of the Indian Ocean, with no apparent intensification over the latest Miocene.