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2. An astronomically dated record of Earth’s climate and its predictability over the last 66 million years

Author

Westerhold, Thomas, Marwan, Norbert, Drury, Anna Joy, Liebrand, Diederik, Agnini, Claudia, Anagnostou, Eleni, Barnet, James SK, Bohaty, Steven M, De Vleeschouwer, David, Florindo, Fabio, Frederichs, Thomas, Hodell, David A, Holbourn, Ann E, Kroon, Dick, Lauretano, Vittoria, Littler, Kate, Lourens, Lucas J, Lyle, Mitchell, Pälike, Heiko, Röhl, Ursula, Tian, Jun, Wilkens, Roy H, Wilson, Paul A, and Zachos, James C

Subjects
Climate Action, General Science & Technology
Abstract

Much of our understanding of Earth's past climate comes from the measurement of oxygen and carbon isotope variations in deep-sea benthic foraminifera. Yet, long intervals in existing records lack the temporal resolution and age control needed to thoroughly categorize climate states of the Cenozoic era and to study their dynamics. Here, we present a new, highly resolved, astronomically dated, continuous composite of benthic foraminifer isotope records developed in our laboratories. Four climate states-Hothouse, Warmhouse, Coolhouse, Icehouse-are identified on the basis of their distinctive response to astronomical forcing depending on greenhouse gas concentrations and polar ice sheet volume. Statistical analysis of the nonlinear behavior encoded in our record reveals the key role that polar ice volume plays in the predictability of Cenozoic climate dynamics.

Published
2020

3. The DeepMIP contribution to PMIP4: methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database

Author

Hollis, Christopher J, Jones, Tom Dunkley, Anagnostou, Eleni, Bijl, Peter K, Cramwinckel, Margot J, Cui, Ying, Dickens, Gerald R, Edgar, Kirsty M, Eley, Yvette, Evans, David, Foster, Gavin L, Frieling, Joost, Inglis, Gordon N, Kennedy, Elizabeth M, Kozdon, Reinhard, Lauretano, Vittoria, Lear, Caroline H, Littler, Kate, Lourens, Lucas, Meckler, A Nele, Naafs, B David A, Paelike, Heiko, Pancost, Richard D, Pearson, Paul N, Roehl, Ursula, Royer, Dana L, Salzmann, Ulrich, Schubert, Brian A, Seebeck, Hannu, Sluijs, Appy, Speijer, Robert P, Stassen, Peter, Tierney, Jessica, Tripati, Aradhna, Wade, Bridget, Westerhold, Thomas, Witkowski, Caitlyn, Zachos, James C, Zhang, Yi Ge, Huber, Matthew, and Lunt, Daniel J

Subjects
Earth Sciences
Abstract

Abstract. The early Eocene (56 to 48 million years ago) is inferred to havebeen the most recent time that Earth's atmospheric CO2 concentrationsexceeded 1000 ppm. Global mean temperatures were also substantially warmerthan those of the present day. As such, the study of early Eocene climate provides insightinto how a super-warm Earth system behaves and offers an opportunity toevaluate climate models under conditions of high greenhouse gas forcing. TheDeep Time Model Intercomparison Project (DeepMIP) is a systematicmodel–model and model–data intercomparison of three early Paleogene timeslices: latest Paleocene, Paleocene–Eocene thermal maximum (PETM) and earlyEocene climatic optimum (EECO). A previous article outlined the modelexperimental design for climate model simulations. In this article, weoutline the methodologies to be used for the compilation and analysis ofclimate proxy data, primarily proxies for temperature and CO2. Thispaper establishes the protocols for a concerted and coordinated effort tocompile the climate proxy records across a wide geographic range. Theresulting climate “atlas” will be used to constrain and evaluate climatemodels for the three selected time intervals and provide insights into themechanisms that control these warm climate states. We provide version 0.1 ofthis database, in anticipation that this will be expanded in subsequentpublications.

Published
2019

6. The DeepMIP contribution to PMIP4: experimental design for model simulations of the EECO, PETM, and pre-PETM (version 1.0)

Author

Lunt, Daniel J, Huber, Matthew, Anagnostou, Eleni, Baatsen, Michiel LJ, Caballero, Rodrigo, DeConto, Rob, Dijkstra, Henk A, Donnadieu, Yannick, Evans, David, Feng, Ran, Foster, Gavin L, Gasson, Ed, von der Heydt, Anna S, Hollis, Chris J, Inglis, Gordon N, Jones, Stephen M, Kiehl, Jeff, Turner, Sandy Kirtland, Korty, Robert L, Kozdon, Reinhardt, Krishnan, Srinath, Ladant, Jean-Baptiste, Langebroek, Petra, Lear, Caroline H, LeGrande, Allegra N, Littler, Kate, Markwick, Paul, Otto-Bliesner, Bette, Pearson, Paul, Poulsen, Christopher J, Salzmann, Ulrich, Shields, Christine, Snell, Kathryn, Staerz, Michael, Super, James, Tabor, Clay, Tierney, Jessica E, Tourte, Gregory JL, Tripati, Aradhna, Upchurch, Garland R, Wade, Bridget S, Wing, Scott L, Winguth, Arne ME, Wright, Nicky M, Zachos, James C, and Zeebe, Richard E

Subjects
Earth Sciences
Abstract

Abstract. Past warm periods provide an opportunity to evaluate climate models under extreme forcing scenarios, in particular high ( >  800 ppmv) atmospheric CO2 concentrations. Although a post hoc intercomparison of Eocene ( ∼  50  Ma) climate model simulations and geological data has been carried out previously, models of past high-CO2 periods have never been evaluated in a consistent framework. Here, we present an experimental design for climate model simulations of three warm periods within the early Eocene and the latest Paleocene (the EECO, PETM, and pre-PETM). Together with the CMIP6 pre-industrial control and abrupt 4 ×  CO2 simulations, and additional sensitivity studies, these form the first phase of DeepMIP – the Deep-time Model Intercomparison Project, itself a group within the wider Paleoclimate Modelling Intercomparison Project (PMIP). The experimental design specifies and provides guidance on boundary conditions associated with palaeogeography, greenhouse gases, astronomical configuration, solar constant, land surface processes, and aerosols. Initial conditions, simulation length, and output variables are also specified. Finally, we explain how the geological data sets, which will be used to evaluate the simulations, will be developed.

Published
2017

7. Large Igneous Province Control on Ocean Anoxia and Eutrophication in the North Sea at the Paleocene–Eocene Thermal Maximum

Author

Mariani, Erica, primary, Kender, Sev, additional, Hesselbo, Stephen P., additional, Bogus, Kara, additional, Littler, Kate, additional, Riding, James B., additional, Leng, Melanie J., additional, Kemp, Simon J., additional, Dybkjær, Karen, additional, Pedersen, Gunver K., additional, Wagner, Thomas, additional, and Dickson, Alexander J., additional

Published
2024
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9. ​​South Georgia marine productivity over the past 15 ka and implications for glacial evolution​

Author

Wilkin, Jack T.R., Kender, Sev, Dejardin, Rowan, Allen, Claire S., Peck, Victoria L., Swann, George E.A., McClymont, Erin L., Scourse, James D., Littler, Kate, Leng, Melanie J., Wilkin, Jack T.R., Kender, Sev, Dejardin, Rowan, Allen, Claire S., Peck, Victoria L., Swann, George E.A., McClymont, Erin L., Scourse, James D., Littler, Kate, and Leng, Melanie J.

Abstract

The subantarctic islands of South Georgia are located in the Southern Ocean, and they may be sensitive to future climate warming. However, due to a lack of well-dated subantarctic palaeoclimate archives, there is still uncertainty about South Georgia's response to past climate change. Here, we reconstruct primary productivity changes and infer Holocene glacial evolution by analysing two marine gravity cores: one near Cumberland Bay on the inner South Georgia shelf (GC673: ca. 9.5 to 0.3 cal. kyr BP) and one offshore of Royal Bay on the mid-shelf (GC666: ca. 15.2 cal. kyr BP to present). We identify three distinct benthic foraminiferal assemblages characterised by the dominance of Miliammina earlandi, Fursenkoina fusiformis, and Cassidulinoides parkerianus that are considered alongside foraminiferal stable isotopes and the organic carbon and biogenic silica accumulation rates of the host sediment. The M. earlandi assemblage is prevalent during intervals of dissolution in GC666 and reduced productivity in GC673. The F. fusiformis assemblage coincides with enhanced productivity in both cores. Our multiproxy analysis provides evidence that the latest Pleistocene to earliest Holocene (ca. 15.2 to 10.5 cal. kyr BP) was a period of high productivity associated with increased glacial meltwater discharge. The mid–late Holocene (ca. 8 to 1 cal. kyr BP), coinciding with a fall in sedimentation rates and lower productivity, was likely a period of reduced glacial extent but with several short-lived episodes of increased productivity from minor glacial readvances. The latest Holocene (from ca. 1 cal. kyr BP) saw an increase in productivity and glacial advance associated with cooling temperatures and increased precipitation which may have been influenced by changes in the southwesterly winds over South Georgia. We interpret the elevated relative abundance of F. fusiformis as a proxy for increased primary productivity which, at proximal site GC673, was forced by terrestrial runoff

Published
2024

10. Large Igneous Province Control on Ocean Anoxia and Eutrophication in the North Sea at the Paleocene–Eocene Thermal Maximum

Author

Mariani, Erica, Kender, Sev, Hesselbo, Stephen P., Bogus, Kara, Littler, Kate, Riding, James B., Leng, Melanie J., Kemp, Simon J., Dybkjær, Karen, Pedersen, Gunver K., Wagner, Thomas, Dickson, Alexander J., Mariani, Erica, Kender, Sev, Hesselbo, Stephen P., Bogus, Kara, Littler, Kate, Riding, James B., Leng, Melanie J., Kemp, Simon J., Dybkjær, Karen, Pedersen, Gunver K., Wagner, Thomas, and Dickson, Alexander J.

Abstract

The Paleocene–Eocene Thermal Maximum (PETM) was a global hyperthermal event ∼56 Ma characterized by massive input of carbon into the ocean–atmosphere system and global warming. A leading hypothesis for its trigger is the emplacement of the North Atlantic Igneous Province (NAIP), with extensive extrusion/intrusion of igneous material into nearby sedimentary basins, forcing local uplift and warming-inducing carbon emissions. It remains unclear if oceanographic changes in the North Sea–Norwegian Sea–Arctic basins, such as anoxia and productivity, were causally linked to local NAIP uplift/activity, and at what time scales these perturbations occurred. To test mechanisms and time scales, we present geochemical proxies (XRF analysis, clay mineralogy, molybdenum isotopes, and pyrite framboid size distribution) in undisrupted marine sediment core E−8X located in the central North Sea. We find evidence for a rapid onset of anoxia/euxinia at the negative carbon isotope excursion from redox proxies, followed by a gradual drawdown of molybdenum/total organic carbon (Mo/TOC) during the PETM main phase indicative of tectonically-restricted basin likely from NAIP uplift. A short-lived increase in Mo, pyrite and TOC occurred during a precursor event associated with a sedimentary mercury pulse indicative of volcanic activity. We suggest thermal uplift and flood basalt volcanism tectonically restricted the North Sea and tipped it into an euxinic state via volcanic emission–oceanographic feedbacks inducing eutrophication. This fine temporal separation of tectonic versus climatic geochemical proxies, combined with pulsed NAIP volcanism, demonstrates that Large Igneous Province emplacements can, at least locally, result in ocean biogeochemical feedbacks operating on relatively short timescales.

Published
2024

11. Cognitive and affective processes associated with moral reasoning, and their relationship with behaviour in typical development

Author

Littler, Kate, Adlam, Anna, and Moberly, Nick

Subjects
570
Abstract

Objective: Moral reasoning (MR) reflects rationalisation in the moral domain, which matures across development and is underpinned by cognitive and affective processes. Although MR is associated with offending behaviours the mechanisms for this association are unknown. Examining the role of cognitive and affective processes in MR, and their influence on behaviour, may enhance existing psychological interventions that aim to reduce offending behaviours, and facilitate the development of novel targeted interventions. The current study investigated the hypothesis that MR would mediate the relationship between executive functions (EFs) and behaviour, and between empathy and behaviour. Method: In a cross-sectional design, typically developing adolescents (n = 72) individually completed an assessment battery, including the sociomoral reflection measure-short form, neuropsychological measures of working memory and cognitive flexibility/inhibition, and self-report questionnaires of empathy and behaviour. The battery also contained an assessment of intellectual functioning, and obtained data on socioeconomic status and age as confounding variables. Results: MR was not associated with self-report behaviour and, therefore, did not mediate the relationship between EFs/empathy and self-reported behaviour. A novel relationship was demonstrated between working memory and MR, and cognitive flexibility/inhibition was associated with MR. Self-report empathy was not associated with MR. Exploratory analyses suggested that intelligence and EFs were significant unique predictors of MR, and that truth and law moral values were associated with self-reported behavioural difficulties. Conclusions: Findings suggest that global MR is not associated with self-reported behaviour in typically developing adolescents, however, there may be an association between some moral values and self-reported behaviour. Findings also suggested that empathy is not associated with MR in this population, which warrants further investigation. These findings have implications for theoretical models of MR, and psychological intervention programmes. Recommendations for future research are presented.

Published
2015

12. Cretaceous sea-surface temperature evolution: Constraints from TEX86 and planktonic foraminiferal oxygen isotopes

Author

O'Brien, Charlotte L., Robinson, Stuart A., Pancost, Richard D., Sinninghe Damsté, Jaap S., Schouten, Stefan, Lunt, Daniel J., Alsenz, Heiko, Bornemann, André, Bottini, Cinzia, Brassell, Simon C., Farnsworth, Alexander, Forster, Astrid, Huber, Brian T., Inglis, Gordon N., Jenkyns, Hugh C., Linnert, Christian, Littler, Kate, Markwick, Paul, McAnena, Alison, Mutterlose, Jörg, Naafs, B. David A., Püttmann, Wilhelm, Sluijs, Appy, van Helmond, Niels A.G.M., Vellekoop, Johan, Wagner, Thomas, and Wrobel, Neil E.

Published
2017
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13. South Georgia marine productivity over the past 15 ka and implications for glacial evolution.

Author

Wilkin, Jack T. R., Kender, Sev, Dejardin, Rowan, Allen, Claire S., Peck, Victoria L., Swann, George E. A., McClymont, Erin L., Scourse, James D., Littler, Kate, and Leng, Melanie J.

Subjects
PLEISTOCENE-Holocene boundary, GLOBAL warming, GLACIAL melting, MARINE productivity, CLIMATE change
Abstract

The subantarctic islands of South Georgia are located in the Southern Ocean, and they may be sensitive to future climate warming. However, due to a lack of well-dated subantarctic palaeoclimate archives, there is still uncertainty about South Georgia's response to past climate change. Here, we reconstruct primary productivity changes and infer Holocene glacial evolution by analysing two marine gravity cores: one near Cumberland Bay on the inner South Georgia shelf (GC673: ca. 9.5 to 0.3 cal. kyr BP) and one offshore of Royal Bay on the mid-shelf (GC666: ca. 15.2 cal. kyr BP to present). We identify three distinct benthic foraminiferal assemblages characterised by the dominance of Miliammina earlandi, Fursenkoina fusiformis, and Cassidulinoides parkerianus that are considered alongside foraminiferal stable isotopes and the organic carbon and biogenic silica accumulation rates of the host sediment. The M. earlandi assemblage is prevalent during intervals of dissolution in GC666 and reduced productivity in GC673. The F. fusiformis assemblage coincides with enhanced productivity in both cores. Our multiproxy analysis provides evidence that the latest Pleistocene to earliest Holocene (ca. 15.2 to 10.5 cal. kyr BP) was a period of high productivity associated with increased glacial meltwater discharge. The mid–late Holocene (ca. 8 to 1 cal. kyr BP), coinciding with a fall in sedimentation rates and lower productivity, was likely a period of reduced glacial extent but with several short-lived episodes of increased productivity from minor glacial readvances. The latest Holocene (from ca. 1 cal. kyr BP) saw an increase in productivity and glacial advance associated with cooling temperatures and increased precipitation which may have been influenced by changes in the southwesterly winds over South Georgia. We interpret the elevated relative abundance of F. fusiformis as a proxy for increased primary productivity which, at proximal site GC673, was forced by terrestrial runoff associated with the spring–summer melting of glaciers in Cumberland Bay. Our study refines the glacial history of South Georgia and provides a more complete record of mid–late Holocene glacial readvances with robust chronology. Our results suggest that South Georgia glaciers were sensitive to modest climate changes within the Holocene. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Laurentide Ice Sheet extent over the last 130 thousand years traced by the Pb isotope signature of weathering inputs to the Labrador Sea

Author

Parker, Rebecca L., Foster, Gavin L., Gutjahr, Marcus, Wilson, Paul A., Littler, Kate L., Cooper, Matthew J., Michalik, Agnes, Milton, James A., Crocket, Kirsty C., Bailey, Ian, Parker, Rebecca L., Foster, Gavin L., Gutjahr, Marcus, Wilson, Paul A., Littler, Kate L., Cooper, Matthew J., Michalik, Agnes, Milton, James A., Crocket, Kirsty C., and Bailey, Ian

Abstract

Highlights • We present LGC record of the Pb isotope composition Labrador Sea seawater. • These data can be used to track Laurentide Ice Sheet extent over Hudson Bay. • LIS retreat during the PGM was relatively fast compared to the LGM • The LIS first advanced significantly over Hudson Bay during MIS 4. • Our record does not support significant LIS retreat during MIS 3. Understanding the history of continental ice-sheet growth on North America, and in particular that of the Laurentide Ice Sheet (LIS), is important for palaeoclimate and sea-level reconstructions. Information on ice-sheet extent pre-dating the Last Glacial Maximum (LGM) is heavily reliant, though, on the outputs of numerical models underpinned by scant geological data. Important aspects of LIS history that remain unresolved include the timing of its collapse during Termination 2, the first time that it expanded significantly during the Last Glacial Cycle, and whether its volume was significantly reduced during marine isotope stage (MIS) 3. To address these issues and more, we present authigenic iron-manganese (Fe–Mn) oxyhydroxide-derived high-resolution records of Pb isotope data and associated rare earth element profiles for samples spanning the past ∼130 kyr from northwest North Atlantic Labrador Sea, IODP Site U1302/3. We use these new data to track chemical weathering intensity and solute flux to the Labrador Sea associated with LIS extent on the adjacent highly radiogenic (high Pb isotope composition) North American Superior Province (SP) craton since the Penultimate Glacial Maximum (PGM). Our new records show that relatively high (radiogenic) values characterise warm marine isotope stages (MIS) 5, 3 and 1 and the lowest (most unradiogenic) values occurred during cold stages MIS 6, 4 and 2. The radiogenic Pb isotope excursion associated with Termination 2 is short-lived relative to the one documented for Termination 1, suggesting that LIS retreat during the PGM was relatively fast compared to the

Published
2022
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20. Carbon Cycling at the Dawn of the Cenozoic

Author

Henehan, Michael J., Barnet, James, Kalderon-Asael, Boriana, Özen, Volkan, Hull, Pincelli, Planavsky, Noah, Ridgwell, Andy, Rae, James, Witts, James, Littler, Kate, Greene, Sarah, Thomas, Ellen, Hain, Mathis, and von Blanckenburg, Friedhelm

Abstract

The Paleocene – the first epoch of the Cenozoic (66–56 Ma) – spans numerous notable climatic and biogeochemical phenomena. In the oceans, the Paleocene saw the drawn-out recovery of calcifying plankton communities after severe extinction at the K-Pg, followed by one of the largest excursions in benthic foraminiferal δ13C values of the last 100 Myr1. On land, an as-yet-unexplained extreme step-change in global weathering regime is indicated by marine carbonate δ7Li values2. More generally, although benthic foraminiferal δ18O suggests a greenhouse climate much warmer than today3, proxy estimates of atmospheric CO2 in the Paleocene mostly indicate CO2 levels similar to those of the relatively colder late Neogene4. Here, I will show some new benthic and planktic foraminiferal boron and lithium isotope data that address outstanding puzzles in geochemical cycling and ocean chemistry at the dawn of the Cenozoic. 1. Friedrich, O., Norris, R. D. & Erbacher, J. Evolution of middle to Late Cretaceous oceans--A 55 m.y. record of Earth’s temperature and carbon cycle. Geology 40, 107–110 (2012). 2. Misra, S. & Froelich, P. N. Lithium Isotope History of Cenozoic Seawater: Changes in Silicate Weathering and Reverse Weathering. Science 335, 818–823 (2012). 3. Westerhold, T. et al. An astronomically dated record of Earth’s climate and its predictability over the last 66 million years. Science 369, 1383–1387 (2020). 4. Beerling, D. J. & Royer, D. L. Convergent Cenozoic CO2 history. Nat. Geosci. 4, 418–420 (2011).

Published
2022
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21. A carbon-isotope perturbation at the Pliensbachian-Toarcian boundary: evidence from the Lias Group, NE England

Author

Littler, Kate, Hesselbo, Stephen P., and Jenkyns, Hugh C.

Subjects
Yorkshire, England -- Natural history, Radiocarbon dating -- Methods, Chemostratigraphy -- Research, Carbon -- Isotopes, Carbon -- Identification and classification, Earth sciences
Abstract

A perturbation in the carbon-isotope record at the time of the Pliensbachian-Toarcian boundary (~ 184 Ma) in the Early Jurassic is reported, based on new data from Yorkshire, England. Two sharp [delta][sup.13][C.sub.org] negative excursions, each with a magnitude of ~ -2.5 [per thousand] and reaching minimum values of -28.5 %o, are recorded in the bulk organic-matter record in sediments of latest Pliensbachian to earliest Toarcian age. A similar pattern of negative carbon-isotope excursions has been observed at the stage boundary in the SW European section at Peniche, Portugal in [delta][sup.13][C.sub.carbonate], [delta][sup.13][C.sub.wood] and [delta][sup.13][C.sub.brachiopod] records. The isotopic excursion is of interest when considering the genesis and development of the later Toarcian Oceanic Anoxic Event (OAE), as well as the second-order global extinction event that spans the stage boundary. Furthermore, the isotope excursion potentially provides a chemostratigraphic marker for recognition of the stage boundary, which is currently achieved on the basis of different ammonite faunas in the NW European and Tethyan realms. Keywords: Jurassic, Toarcian, Pliensbachian, carbon-isotope, excursion. doi: 10.1017/S0016756809990458

Published
2010

23. Lessons from a high-CO2 world: An ocean view from ∼3 million years ago

Author

McClymont, Erin L., Ford, Heather L., Ling Ho, Sze, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Christina Ravelo, A., Risebrobakken, Bjorg, De Schepper, Stijn, Swann, George E.A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L.J., Brady, Esther C., Chan, Wing Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, Von Der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Richard Peltier, W., Stepanek, Christian, Zhang, Zhongshi, Marine and Atmospheric Research, Organic geochemistry, Marine palynology and palaeoceanography, Sub Dynamics Meteorology, Sub Physical Oceanography, and Marine Palynology

Subjects
Global and Planetary Change, Stratigraphy, Palaeontology
Abstract

A range of future climate scenarios are projected for high atmospheric CO2 concentrations, given uncertainties over future human actions as well as potential environmental and climatic feedbacks. The geological record offers an opportunity to understand climate system response to a range of forcings and feedbacks which operate over multiple temporal and spatial scales. Here, we examine a single interglacial during the late Pliocene (KM5c, ca. 3:205_0:01 Ma) when atmospheric CO2 exceeded pre-industrial concentrations, but were similar to today and to the lowest emission scenarios for this century. As orbital forcing and continental configurations were almost identical to today, we are able to focus on equilibrium climate system response to modern and near-future CO2. Using proxy data from 32 sites, we demonstrate that global mean sea-surface temperatures were warmer than pre-industrial values, by 2:3 C for the combined proxy data (foraminifera Mg=Ca and alkenones), or by 3:2 3.4 C (alkenones only). Compared to the preindustrial period, reduced meridional gradients and enhanced warming in the North Atlantic are consistently reconstructed. There is broad agreement between data and models at the global scale, with regional differences reflecting ocean circulation and/or proxy signals. An uneven distribution of proxy data in time and space does, however, add uncertainty to our anomaly calculations. The reconstructed global mean seasurface temperature anomaly for KM5c is warmer than all but three of the PlioMIP2 model outputs, and the reconstructed North Atlantic data tend to align with the warmest KM5c model values. Our results demonstrate that even under low-CO2 emission scenarios, surface ocean warming may be expected to exceed model projections and will be accentuated in the higher latitudes.

Published
2020

24. Lessons from a high-CO2 world: an ocean view from ∼ 3 million years ago

Author

McClymont, Erin L., Ford, Heather L., Ho, Sze Ling, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Ravelo, A. Christina, De Schepper, Stijn, Swann, George E. A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L. J., Brady, Esther C., Chan, Wing-Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, von der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Peltier, W. Richard, Stepanek, Christian, and Zhang, Zhongshi

Subjects
Global and Planetary Change, Stratigraphy, Palaeontology
Abstract

A range of future climate scenarios are projected for high atmospheric CO2 concentrations, given uncertainties over future human actions as well as potential environmental and climatic feedbacks. The geological record offers an opportunity to understand climate system response to a range of forcings and feedbacks which operate over multiple temporal and spatial scales. Here, we examine a single interglacial during the late Pliocene (KM5c, ca. 3.205±0.01 Ma) when atmospheric CO2 exceeded pre-industrial concentrations, but were similar to today and to the lowest emission scenarios for this century. As orbital forcing and continental configurations were almost identical to today, we are able to focus on equilibrium climate system response to modern and near-future CO2. Using proxy data from 32 sites, we demonstrate that global mean sea-surface temperatures were warmer than pre-industrial values, by ∼2.3 ∘C for the combined proxy data (foraminifera Mg∕Ca and alkenones), or by ∼3.2–3.4 ∘C (alkenones only). Compared to the pre-industrial period, reduced meridional gradients and enhanced warming in the North Atlantic are consistently reconstructed. There is broad agreement between data and models at the global scale, with regional differences reflecting ocean circulation and/or proxy signals. An uneven distribution of proxy data in time and space does, however, add uncertainty to our anomaly calculations. The reconstructed global mean sea-surface temperature anomaly for KM5c is warmer than all but three of the PlioMIP2 model outputs, and the reconstructed North Atlantic data tend to align with the warmest KM5c model values. Our results demonstrate that even under low-CO2 emission scenarios, surface ocean warming may be expected to exceed model projections and will be accentuated in the higher latitudes.

Published
2020

25. Triumph and tribulation for shallow water fauna during the Paleocene-Eocene transition; insights from the United Arab Emirates

Author

Beasley, Charlotte, Cotton, Laura, Al-Suwaidi, Aisha, LeVay, Leah, Sluijs, Appy, Ullmann, Clemens V., Hesselbo, Stephen P., Littler, Kate, Beasley, Charlotte, Cotton, Laura, Al-Suwaidi, Aisha, LeVay, Leah, Sluijs, Appy, Ullmann, Clemens V., Hesselbo, Stephen P., and Littler, Kate

Abstract

The Paleocene-Eocene transition was a time of short-term rapid climatic and biotic change, superimposed on a long-term warming trend. The response of shallow tropical carbonate systems to past rapid warming is important to understand in the context of ongoing and future anthropogenic global warming. Larger benthic foraminifera (LBF) were abundant and important components of shallow water ecosystems throughout the early Paleogene and are sensitive to environmental change, making them ideal organisms to track shallow marine biodiversity. Furthermore, through the use of integrated bio- and chemostratigraphy it is possible to correlate the shallow (<100 m) and deep water realms to create a regional stratigraphic framework for the time period. Here we present a new LBF biostratigraphic and high-resolution carbonate carbon isotopic record spanning the Paleocene-Eocene transition from the onshore sub-surface of the United Arab Emirates (UAE). Results show a turnover event in the LBF assemblage during the early Eocene, wherein there are a number of first and last occurrences of species. However, assemblages remain generally stable coincident with the large negative carbon isotope excursion interpreted to be the onset of the Paleocene-Eocene thermal maximum (PETM). Turnover in the LBF assemblage in the early Eocene likely occurred due to the crossing of a long-term climatic and oceanographic threshold. The impacts of this long-term climatic change on the overall biotic assemblage at this site are significant, with LBF outcompeting a previously diverse community of corals, gastropods, and bivalves to become the dominant carbonate producers through the Paleocene-Eocene transition. Despite this, modern studies suggest that LBF are not immune to impacts of anthropogenic climate change, perhaps due to the significantly higher rates of change in the modern compared to the Paleocene-Eocene transition.

Published
2021

26. Triumph and tribulation for shallow water fauna during the Paleocene-Eocene transition; insights from the United Arab Emirates

Author

Marine palynology and palaeoceanography, Marine Palynology, Beasley, Charlotte, Cotton, Laura, Al-Suwaidi, Aisha, LeVay, Leah, Sluijs, Appy, Ullmann, Clemens V., Hesselbo, Stephen P., Littler, Kate, Marine palynology and palaeoceanography, Marine Palynology, Beasley, Charlotte, Cotton, Laura, Al-Suwaidi, Aisha, LeVay, Leah, Sluijs, Appy, Ullmann, Clemens V., Hesselbo, Stephen P., and Littler, Kate

Published
2021

27. Evidence of a South Asian proto-monsoon during the Oligocene-Miocene transition

Author

Beasley, Charlotte, Kender, Sev, Giosan, Liviu, Bolton, Clara T., Anand, Pallavi, Leng, Melanie J., Nilsson-Kerr, Katrina, Ullmann, Clemens Vinzenz, Hesselbo, Stephen P., Littler, Kate, Beasley, Charlotte, Kender, Sev, Giosan, Liviu, Bolton, Clara T., Anand, Pallavi, Leng, Melanie J., Nilsson-Kerr, Katrina, Ullmann, Clemens Vinzenz, Hesselbo, Stephen P., and Littler, Kate

Abstract

The geological history of the South Asian monsoon (SAM) before the Pleistocene is not well-constrained, primarily due to a lack of available continuous sediment archives. Previous studies have noted an intensification of SAM precipitation and atmospheric circulation during the middle Miocene (∼14 Ma), but no records are available to test how the monsoon changed prior to this. In order to improve our understanding of monsoonal evolution, geochemical and sedimentological data were generated for the Oligocene-early Miocene (30–20 Ma) from Indian National Gas Hydrate Expedition 01 Site NGHP-01-01A in the eastern Arabian Sea, at 2,674 m water depth. We find the initial glaciation phase (23.7–23.0 Ma) of the Oligocene-Miocene transition (OMT) to be associated with an increase in water column ventilation and water mass mixing, suggesting an increase in winter monsoon type atmospheric circulation, possibly driven by a relative southward shift of the intertropical convergence zone. During the latter part of the OMT, or “deglaciation” phase (23.0–22.7 Ma), a long-term decrease in Mn (suggestive of deoxygenation), increase in Ti/Ca and dissolution of the biogenic carbonate fraction suggest an intensification of a proto-summer SAM system, characterized by the formation of an oxygen minimum zone in the eastern Arabian Sea and a relative increase of terrigenous material delivered by runoff to the site. With no evidence at this site for an active SAM prior to the OMT we suggest that changes in orbital parameters, as well as possibly changing Tethyan/Himalayan tectonics, caused this step change in the proto-monsoon system at this intermediate-depth site.

Published
2021

32. Lessons from a high CO2 world: an ocean view from ~3 million years ago

Author

McClymont, Erin, primary, Ford, Heather, additional, Ho, Sze Ling, additional, Tindall, Julia, additional, Haywood, Alan, additional, Alonso Garcia, Montserrat, additional, Bailey, Ian, additional, Berke, Melissa, additional, Littler, Kate, additional, Patterson, Molly, additional, Petrick, Benjamin, additional, Peterse, Francien, additional, Ravelo, Christina, additional, Risebrobakken, Bjorg, additional, De Schepper, Stijn, additional, Swann, George, additional, Thirumalai, Kaustubh, additional, Tierney, Jessica, additional, van der Weijst, Carolien, additional, and White, Sarah, additional

Published
2020
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33. Lessons from a high CO2 world: an ocean view from ~ 3 million years ago

Author

McClymont, Erin L., Ford, Heather L., Ho, Sze Ling, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly, Petrick, Benjamin, Peterse, Francien, Ravelo, A. Christina, Risebrobakken, Bjørg, Schepper, Stijn, Swann, George E. A., Thirumalai, Kaustubh, Tierney, Jessica E., Weijst, Carolien, and White, Sarah

Abstract

A range of future climate scenarios are projected for high atmospheric CO2 concentrations, given uncertainties over future human actions as well as potential environmental and climatic feedbacks. The geological record offers an opportunity to understand climate system response to a range of forcings and feedbacks which operate over multiple temporal and spatial scales. Here, we examine a single interglacial during the late Pliocene (KM5c, ca. 3.205 &pm; 0.01 Ma) when atmospheric CO2 concentrations were higher than pre-industrial, but similar to today and to the lowest emission scenarios for this century. As orbital forcing and continental configurations were almost identical to today, we are able to focus on equilibrium climate system response to modern and near-future CO2. Using proxy data from 32 sites, we demonstrate that global mean sea-surface temperatures were warmer than pre-industrial, by ~ 2.3 ºC for the combined proxy data (foraminifera Mg/Ca and alkenones), or by ~ 3.2 ºC (alkenones only). Compared to the pre-industrial, reduced meridional gradients and enhanced warming in the North Atlantic are consistently reconstructed. There is broad agreement between data and models at the global scale, with regional differences reflecting ocean circulation and/or proxy signals. An uneven distribution of proxy data in time and space does, however, add uncertainty to our anomaly calculations. The reconstructed global mean sea-surface temperature anomaly for KM5c is warmer than all but three of the PlioMIP2 model outputs, and the reconstructed North Atlantic data tend to align with the warmest KM5c model values. Our results demonstrate that even under low CO2 emission scenarios, surface ocean warming may be expected to exceed model projections, and will be accentuated in the higher latitudes.

Published
2020

34. An astronomically dated record of Earth's climate and its predictability over the last 66 million years

Author

Stratigraphy and paleontology, Stratigraphy & paleontology, Westerhold, Thomas, Marwan, Norbert, Drury, Anna Joy, Liebrand, Diederik, Agnini, Claudia, Anagnostou, Eleni, Barnet, James S.K., Bohaty, Steven M., De Vleeschouwer, David, Florindo, Fabio, Frederichs, Thomas, Hodell, David A., Holbourn, Ann E., Kroon, Dick, Lauretano, Vittoria, Littler, Kate, Lourens, Lucas J., Lyle, Mitchell, Pälike, Heiko, Röhl, Ursula, Tian, Jun, Wilkens, Roy H., Wilson, Paul A., Zachos, James C., Stratigraphy and paleontology, Stratigraphy & paleontology, Westerhold, Thomas, Marwan, Norbert, Drury, Anna Joy, Liebrand, Diederik, Agnini, Claudia, Anagnostou, Eleni, Barnet, James S.K., Bohaty, Steven M., De Vleeschouwer, David, Florindo, Fabio, Frederichs, Thomas, Hodell, David A., Holbourn, Ann E., Kroon, Dick, Lauretano, Vittoria, Littler, Kate, Lourens, Lucas J., Lyle, Mitchell, Pälike, Heiko, Röhl, Ursula, Tian, Jun, Wilkens, Roy H., Wilson, Paul A., and Zachos, James C.

Published
2020

35. Lessons from a high-CO2 world: An ocean view from ∼3 million years ago

Author

Marine and Atmospheric Research, Organic geochemistry, Marine palynology and palaeoceanography, Sub Dynamics Meteorology, Sub Physical Oceanography, Marine Palynology, McClymont, Erin L., Ford, Heather L., Ling Ho, Sze, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Christina Ravelo, A., Risebrobakken, Bjorg, De Schepper, Stijn, Swann, George E.A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L.J., Brady, Esther C., Chan, Wing Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, Von Der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Richard Peltier, W., Stepanek, Christian, Zhang, Zhongshi, Marine and Atmospheric Research, Organic geochemistry, Marine palynology and palaeoceanography, Sub Dynamics Meteorology, Sub Physical Oceanography, Marine Palynology, McClymont, Erin L., Ford, Heather L., Ling Ho, Sze, Tindall, Julia C., Haywood, Alan M., Alonso-Garcia, Montserrat, Bailey, Ian, Berke, Melissa A., Littler, Kate, Patterson, Molly O., Petrick, Benjamin, Peterse, Francien, Christina Ravelo, A., Risebrobakken, Bjorg, De Schepper, Stijn, Swann, George E.A., Thirumalai, Kaustubh, Tierney, Jessica E., van der Weijst, Carolien, White, Sarah, Abe-Ouchi, Ayako, Baatsen, Michiel L.J., Brady, Esther C., Chan, Wing Le, Chandan, Deepak, Feng, Ran, Guo, Chuncheng, Von Der Heydt, Anna S., Hunter, Stephen, Li, Xiangyi, Lohmann, Gerrit, Nisancioglu, Kerim H., Otto-Bliesner, Bette L., Richard Peltier, W., Stepanek, Christian, and Zhang, Zhongshi

Published
2020

38. Supplementary material to "Lessons from a high CO2 world: an ocean view from ~ 3 million years ago"

Author

McClymont, Erin L., primary, Ford, Heather L., additional, Ho, Sze Ling, additional, Tindall, Julia C., additional, Haywood, Alan M., additional, Alonso-Garcia, Montserrat, additional, Bailey, Ian, additional, Berke, Melissa A., additional, Littler, Kate, additional, Patterson, Molly, additional, Petrick, Benjamin, additional, Peterse, Francien, additional, Ravelo, A. Christina, additional, Risebrobakken, Bjørg, additional, De Schepper, Stijn, additional, Swann, George E. A., additional, Thirumalai, Kaustubh, additional, Tierney, Jessica E., additional, van der Weijst, Carolien, additional, and White, Sarah, additional

Published
2020
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39. Lessons from a high CO&lt;sub&gt;2&lt;/sub&gt; world: an ocean view from ~ 3 million years ago

Author

McClymont, Erin L., primary, Ford, Heather L., additional, Ho, Sze Ling, additional, Tindall, Julia C., additional, Haywood, Alan M., additional, Alonso-Garcia, Montserrat, additional, Bailey, Ian, additional, Berke, Melissa A., additional, Littler, Kate, additional, Patterson, Molly, additional, Petrick, Benjamin, additional, Peterse, Francien, additional, Ravelo, A. Christina, additional, Risebrobakken, Bjørg, additional, De Schepper, Stijn, additional, Swann, George E. A., additional, Thirumalai, Kaustubh, additional, Tierney, Jessica E., additional, van der Weijst, Carolien, additional, and White, Sarah, additional

Published
2020
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42. The DeepMIP contribution to PMIP4: Methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database

Author

Hollis, Christopher J., Dunkley Jones, Tom, Anagnostou, Eleni, Bijl, Peter K., Cramwinckel, Margot J., Cui, Ying, Dickens, Gerald R., Edgar, Kirsty M., Eley, Yvette, Evans, David, Foster, Gavin L., Frieling, Joost, Inglis, Gordon N., Kennedy, Elizabeth M., Kozdon, Reinhard, Lauretano, Vittoria, Lear, Caroline H., Littler, Kate, Lourens, Lucas, Nele Meckler, A., Naafs, B. David A., Pälike, Heiko, Pancost, Richard D., Pearson, Paul N., Röhl, Ursula, Royer, Dana L., Salzmann, Ulrich, Schubert, Brian A., Seebeck, Hannu, Sluijs, Appy, Speijer, Robert P., Stassen, Peter, Tierney, Jessica, Tripati, Aradhna, Wade, Bridget, Westerhold, Thomas, Witkowski, Caitlyn, Zachos, James C., Ge Zhang, Yi, Huber, Matthew, Lunt, Daniel J., Hollis, Christopher J., Dunkley Jones, Tom, Anagnostou, Eleni, Bijl, Peter K., Cramwinckel, Margot J., Cui, Ying, Dickens, Gerald R., Edgar, Kirsty M., Eley, Yvette, Evans, David, Foster, Gavin L., Frieling, Joost, Inglis, Gordon N., Kennedy, Elizabeth M., Kozdon, Reinhard, Lauretano, Vittoria, Lear, Caroline H., Littler, Kate, Lourens, Lucas, Nele Meckler, A., Naafs, B. David A., Pälike, Heiko, Pancost, Richard D., Pearson, Paul N., Röhl, Ursula, Royer, Dana L., Salzmann, Ulrich, Schubert, Brian A., Seebeck, Hannu, Sluijs, Appy, Speijer, Robert P., Stassen, Peter, Tierney, Jessica, Tripati, Aradhna, Wade, Bridget, Westerhold, Thomas, Witkowski, Caitlyn, Zachos, James C., Ge Zhang, Yi, Huber, Matthew, and Lunt, Daniel J.

Abstract

The early Eocene (56 to 48 million years ago) is inferred to have been the most recent time that Earth's atmospheric CO2 concentrations exceeded 1000 ppm. Global mean temperatures were also substantially warmer than those of the present day. As such, the study of early Eocene climate provides insight into how a super-warm Earth system behaves and offers an opportunity to evaluate climate models under conditions of high greenhouse gas forcing. The Deep Time Model Intercomparison Project (DeepMIP) is a systematic model-model and model-data intercomparison of three early Paleogene time slices: latest Paleocene, Paleocene-Eocene thermal maximum (PETM) and early Eocene climatic optimum (EECO). A previous article outlined the model experimental design for climate model simulations. In this article, we outline the methodologies to be used for the compilation and analysis of climate proxy data, primarily proxies for temperature and CO2. This paper establishes the protocols for a concerted and coordinated effort to compile the climate proxy records across a wide geographic range. The resulting climate "atlas" will be used to constrain and evaluate climate models for the three selected time intervals and provide insights into the mechanisms that control these warm climate states. We provide version 0.1 of this database, in anticipation that this will be expanded in subsequent publications.

Published
2019

43. The DeepMIP contribution to PMIP4: Methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database

Author

Marine Palynology, Stratigraphy & paleontology, Marine palynology and palaeoceanography, Stratigraphy and paleontology, Hollis, Christopher J., Dunkley Jones, Tom, Anagnostou, Eleni, Bijl, Peter K., Cramwinckel, Margot J., Cui, Ying, Dickens, Gerald R., Edgar, Kirsty M., Eley, Yvette, Evans, David, Foster, Gavin L., Frieling, Joost, Inglis, Gordon N., Kennedy, Elizabeth M., Kozdon, Reinhard, Lauretano, Vittoria, Lear, Caroline H., Littler, Kate, Lourens, Lucas, Nele Meckler, A., Naafs, B. David A., Pälike, Heiko, Pancost, Richard D., Pearson, Paul N., Röhl, Ursula, Royer, Dana L., Salzmann, Ulrich, Schubert, Brian A., Seebeck, Hannu, Sluijs, Appy, Speijer, Robert P., Stassen, Peter, Tierney, Jessica, Tripati, Aradhna, Wade, Bridget, Westerhold, Thomas, Witkowski, Caitlyn, Zachos, James C., Ge Zhang, Yi, Huber, Matthew, Lunt, Daniel J., Marine Palynology, Stratigraphy & paleontology, Marine palynology and palaeoceanography, Stratigraphy and paleontology, Hollis, Christopher J., Dunkley Jones, Tom, Anagnostou, Eleni, Bijl, Peter K., Cramwinckel, Margot J., Cui, Ying, Dickens, Gerald R., Edgar, Kirsty M., Eley, Yvette, Evans, David, Foster, Gavin L., Frieling, Joost, Inglis, Gordon N., Kennedy, Elizabeth M., Kozdon, Reinhard, Lauretano, Vittoria, Lear, Caroline H., Littler, Kate, Lourens, Lucas, Nele Meckler, A., Naafs, B. David A., Pälike, Heiko, Pancost, Richard D., Pearson, Paul N., Röhl, Ursula, Royer, Dana L., Salzmann, Ulrich, Schubert, Brian A., Seebeck, Hannu, Sluijs, Appy, Speijer, Robert P., Stassen, Peter, Tierney, Jessica, Tripati, Aradhna, Wade, Bridget, Westerhold, Thomas, Witkowski, Caitlyn, Zachos, James C., Ge Zhang, Yi, Huber, Matthew, and Lunt, Daniel J.

Published
2019

44. The DeepMIP contribution to PMIP4: methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database

Author

Hollis, Christopher, Dunkley Jones, Tom, Anagnostou, Eleni, Bijl, Peter, Cramwinckel, Margot, Cui, Ying, Dickens, Gerald, Edgar, Kirsty, Eley, Yvette, Evans, David, Foster, Gavin, Joost, Frieling, Inglis, Gordon, Kozdon, Reinhard, Lauretano, Vittoria, Lear, Caroline, Littler, Kate, Meckler, Nele, David, B, Naafs, A, Pälike, Heiko, Pancost, Richard, Pearson, Paul, Royer, Dana, Salzmann, Ulrich, Schubert, Brian, Seebeck, Hannu, Sluijs, Appy, Speijer, Robert, Stassen, Peter, Tierney, Jessica, Hollis, Christopher, Dunkley Jones, Tom, Anagnostou, Eleni, Bijl, Peter, Cramwinckel, Margot, Cui, Ying, Dickens, Gerald, Edgar, Kirsty, Eley, Yvette, Evans, David, Foster, Gavin, Joost, Frieling, Inglis, Gordon, Kozdon, Reinhard, Lauretano, Vittoria, Lear, Caroline, Littler, Kate, Meckler, Nele, David, B, Naafs, A, Pälike, Heiko, Pancost, Richard, Pearson, Paul, Royer, Dana, Salzmann, Ulrich, Schubert, Brian, Seebeck, Hannu, Sluijs, Appy, Speijer, Robert, Stassen, Peter, and Tierney, Jessica

Abstract

The early Eocene (56 to 48 million years ago) is inferred to have been the most recent time that Earth's atmospheric CO2 concentrations exceeded 1000 ppm. Global mean temperatures were also substantially warmer than present day. As such, study of early Eocene climate provides insight into how a super-warm Earth system behaves and offers an opportunity to 10 evaluate climate models under conditions of high greenhouse gas forcing. The Deep Time Model Intercomparison Project (DeepMIP) is a systematic model-model and model-data intercomparison of three early Paleogene time slices: latest Paleocene, Paleocene-Eocene thermal maximum and early Eocene climatic optimum. A previous article outlined the model experimental design for climate model simulations. In this article, we outline the methodologies to be used for the compilation and analysis of climate proxy data, primarily proxies for temperature and CO2. This paper establishes the protocols for a concerted and 15 coordinated effort to compile the climate proxy records across a wide geographic range. The resulting climate "atlas" will be used to constrain and evaluate climate models for the three selected time intervals, and provide insights into the mechanisms that control these warm climate states. We provide version 0.1 of this database, in anticipation that this will be expanded in subsequent publications.

Published
2019

45. Cretaceous sea-surface temperature evolution: Constraints from TEX 86 and planktonic foraminiferal oxygen isotopes

Author

O'Brien, Charlotte L., Robinson, Stuart A., Pancost, Richard D., Sinninghe Damsté, Jaap S., Schouten, Stefan, Lunt, Daniel J., Alsenz, Heiko, Bornemann, André, Bottini, Cinzia, Brassell, Simon C., Farnsworth, Alexander, Forster, Astrid, Huber, Brian T., Inglis, Gordon N., Jenkyns, Hugh C., Linnert, Christian, Littler, Kate, Markwick, Paul, Mcanena, Alison, Mutterlose, Jörg, Naafs, B. David A., Püttmann, Wilhelm, Sluijs, Appy, van Helmond, Niels A.G.M., Vellekoop, Johan, Wagner, Thomas, Wrobel, Neil E., Organic geochemistry, Marine palynology and palaeoceanography, Geochemistry, Marine Palynology, and Organic geochemistry & molecular biogeology

Subjects
Planktonic foraminifera, TEX86, Greenhouse climate, glycerol dialkyl glycerol tetraethers, SEA-SURFACE TEMPERATURES, Palaeoclimate, Cretaceous, Organic geochemistry, Geochemical proxies
Abstract

It is well established that greenhouse conditions prevailed during the Cretaceous Period (~ 145–66 Ma). Determining the exact nature of the greenhouse-gas forcing, climatic warming and climate sensitivity remains, however, an active topic of research. Quantitative and qualitative geochemical and palaeontological proxies provide valuable observational constraints on Cretaceous climate. In particular, reconstructions of Cretaceous sea-surface temperatures (SSTs) have been revolutionised firstly by the recognition that clay-rich sequences can host exceptionally preserved planktonic foraminifera allowing for reliable oxygen-isotope analyses and, secondly by the development of the organic palaeothermometer TEX86, based on the distribution of marine archaeal membrane lipids. Here we provide a new compilation and synthesis of available planktonic foraminiferal δ18O (δ18Opl) and TEX86-SST proxy data for almost the entire Cretaceous Period. The compilation uses SSTs recalculated from published raw data, allowing examination of the sensitivity of each proxy to the calculation method (e.g., choice of calibration) and places all data on a common timescale. Overall, the compilation shows many similarities with trends present in individual records of Cretaceous climate change. For example, both SST proxies and benthic foraminiferal δ18O records indicate maximum warmth in the Cenomanian–Turonian interval. Our reconstruction of the evolution of latitudinal temperature gradients (low, ±48°, palaeolatitudes) reveals temporal changes. In the Valanginian–Aptian, the low-to-higher mid-latitudinal temperature gradient was weak (decreasing from ~ 10–17 °C in the Valanginian, to ~ 3–5 °C in the Aptian, based on TEX86-SSTs). In the Cenomanian–Santonian, reconstructed latitudinal temperature contrasts are also small relative to modern (< 14 °C, based on low-latitude TEX86 and δ18Opl SSTs minus higher latitude δ18Opl SSTs, compared with ~ 20 °C for the modern). In the mid-Campanian to end-Maastrichtian, latitudinal temperature gradients strengthened (~ 19–21 °C, based on low-latitude TEX86 and δ18Opl SSTs minus higher latitude δ18Opl SSTs), with cooling occurring at low-, middle- and higher palaeolatitude sites, implying global surface-ocean cooling and/or changes in ocean heat transport in the Late Cretaceous. These reconstructed long-term trends are resilient, regardless of the choice of proxy (TEX86 or δ18Opl) or calibration. This new Cretaceous SST synthesis provides an up-to-date target for modelling studies investigating the mechanics of extreme climates.

Published
2017

46. The DeepMIP contribution to PMIP4:experimental design for model simulations of the EECO, PETM, and pre-PETM

Author

Lunt, Dan, Huber, Matthew, Anagnostou, Eleni, Baatsen, Michiel, Caballero, Rodrigo, DeConto, Rob, Dijkstra, Henk, Donnadieu, Yannick, Evans, David, Feng, Ran, Foster, Gavin, Gasson, Ed, von der Heydt, Anna, Hollis, Christopher J., Inglis, Gordon, Jones, Stephen, Kiehl, Jeff, Kirtland Turner, Sandy, Korty, Robert, Kozdon, Reinhardt, Krishnan, Srinath, Ladant, Jean-Baptiste, Langebroek, Petra, Lear, Caroline, LeGrande, Allegra, Littler, Kate, Markwick, Paul, Otto-Bliesner, Bette, Pearson, Paul, Poulsen, Christopher, Salzmann, Ulrich, Shields, Christine, Snell, Kathryn, Starz, Michael, Super, James, Tabor, Clay, Tierney, Jess, Tourte, Gregory J. L., Tripati, Aradhna, Upchurch, Gary, Wade, Bridget, Wing, Scott, Winguth, Arne, Wright, Nicky, Zachos, James, and Zeebe, Richard

Abstract

Past warm periods provide an opportunity to evaluate climate models under extreme forcing scenarios, in particular high (>800 ppmv) atmospheric CO2 concentrations. Although a post-hoc intercomparison of Eocene (∼50 million years ago, Ma) climate model simulations and geological data has been carried out previously, models of past high-CO2 periods have never been evaluated in a consistent framework. Here, we present an experimental design for climate model simulations of three warm periods within the early Eocene and the latest Paleocene (the EECO, PETM, and pre-PETM). Together with the CMIP6 preindustrial control and abrupt 4CO2 simulations, and additional sensitivity studies, these form the first phase of DeepMIP – the Deep-time Model Intercomparison Project, itself a group within the wider Paleoclimate Modelling Intercomparison Project (PMIP). The experimental design specifies and provides guidance on boundary conditions associated with palaeogeography, greenhouse gases, astronomical configuration, solar constant, land surface processes, and aerosols. Initial conditions, simulation length, and output variables are also specified. Finally, we explain how the geological datasets, which will be used to evaluate the simulations, will be developed.

Published
2017
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47. Supplementary material to &quot;The DeepMIP contribution to PMIP4: methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database&quot;

Author

Hollis, Christopher J., primary, Dunkley Jones, Tom, additional, Anagnostou, Eleni, additional, Bijl, Peter K., additional, Cramwinckel, Margot J., additional, Cui, Ying, additional, Dickens, Gerald R., additional, Edgar, Kirsty M., additional, Eley, Yvette, additional, Evans, David, additional, Foster, Gavin L., additional, Frieling, Joost, additional, Inglis, Gordon N., additional, Kennedy, Elizabeth M., additional, Kozdon, Reinhard, additional, Lauretano, Vittoria, additional, Lear, Caroline H., additional, Littler, Kate, additional, Meckler, Nele, additional, Naafs, B. David A., additional, Pälike, Heiko, additional, Pancost, Richard D., additional, Pearson, Paul, additional, Royer, Dana L., additional, Salzmann, Ulrich, additional, Schubert, Brian, additional, Seebeck, Hannu, additional, Sluijs, Appy, additional, Speijer, Robert, additional, Stassen, Peter, additional, Tierney, Jessica, additional, Tripati, Aradhna, additional, Wade, Bridget, additional, Westerhold, Thomas, additional, Witkowski, Caitlyn, additional, Zachos, James C., additional, Zhang, Yi Ge, additional, Huber, Matthew, additional, and Lunt, Daniel J., additional

Published
2019
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48. The DeepMIP contribution to PMIP4: methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database

Author

Hollis, Christopher J., primary, Dunkley Jones, Tom, additional, Anagnostou, Eleni, additional, Bijl, Peter K., additional, Cramwinckel, Margot J., additional, Cui, Ying, additional, Dickens, Gerald R., additional, Edgar, Kirsty M., additional, Eley, Yvette, additional, Evans, David, additional, Foster, Gavin L., additional, Frieling, Joost, additional, Inglis, Gordon N., additional, Kennedy, Elizabeth M., additional, Kozdon, Reinhard, additional, Lauretano, Vittoria, additional, Lear, Caroline H., additional, Littler, Kate, additional, Meckler, Nele, additional, Naafs, B. David A., additional, Pälike, Heiko, additional, Pancost, Richard D., additional, Pearson, Paul, additional, Royer, Dana L., additional, Salzmann, Ulrich, additional, Schubert, Brian, additional, Seebeck, Hannu, additional, Sluijs, Appy, additional, Speijer, Robert, additional, Stassen, Peter, additional, Tierney, Jessica, additional, Tripati, Aradhna, additional, Wade, Bridget, additional, Westerhold, Thomas, additional, Witkowski, Caitlyn, additional, Zachos, James C., additional, Zhang, Yi Ge, additional, Huber, Matthew, additional, and Lunt, Daniel J., additional

Published
2019
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