GLORIA — GEOMAR Library Ocean Research Information Access

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Climate warming during Antarctic ice sheet expansion at the Middle Miocene transition (2014)

Knorr, Gregor ; Lohmann, Gerrit

Nature Publishing Group

In: EPIC3Nature Geoscience, Nature Publishing Group, 7(5), pp. 376-381, ISSN: 1752-0894

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Publication Date: 2014-07-14

Description: During the Middle Miocene climate transition about 14 million years ago, the Antarctic ice sheet expanded to near-modern volume. Surprisingly, this ice sheet growth was accompanied by a warming in the surface waters of the Southern Ocean, whereas a slight deep-water temperature increase was delayed by more than 200 thousand years. Here we use a coupled atmosphere–ocean model to assess the relative effects of changes in atmospheric CO2 concentration and ice sheet growth on regional and global temperatures. In the simulations, changes in the wind field associated with the growth of the ice sheet induce changes in ocean circulation, deep-water formation and sea-ice cover that result in sea surface warming and deep-water cooling in large swaths of the Atlantic and Indian ocean sectors of the Southern Ocean. We interpret these changes as the dominant ocean surface response to a 100-thousand-year phase of massive ice growth in Antarctica. A rise in global annual mean temperatures is also seen in response to increased Antarctic ice surface elevation. In contrast, the longer-term surface and deep-water temperature trends are dominated by changes in atmospheric CO2 concentration. We therefore conclude that the climatic and oceanographic impacts of the Miocene expansion of the Antarctic ice sheet are governed by a complex interplay between wind field, ocean circulation and the sea-ice system.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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Abrupt glacial climate shifts controlled by ice sheet changes (2014)

Zhang, Xu ; Lohmann, Gerrit ; Knorr, Gregor ; [et al.]

Nature Publishing Group

In: EPIC3Nature, Nature Publishing Group, 512(7514), pp. 290-294, ISSN: 0028-0836

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Publication Date: 2014-09-04

Description: During glacial periods of the Late Pleistocene, an abundance of proxy data demonstrates the existence of large and repeated millennial-scale warming episodes, known as Dansgaard–Oeschger (DO) events1. This ubiquitous feature of rapid glacial climate change can be extended back as far as 800,000 years before present (BP) in the ice core record2, and has drawn broad attention within the science and policy-making communities alike3. Many studies have been dedicated to investigating the underlying causes of these changes, but no coherent mechanism has yet been identified3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15. Here we show, by using a comprehensive fully coupled model16, that gradual changes in the height of the Northern Hemisphere ice sheets (NHISs) can alter the coupled atmosphere–ocean system and cause rapid glacial climate shifts closely resembling DO events. The simulated global climate responses—including abrupt warming in the North Atlantic, a northward shift of the tropical rainbelts, and Southern Hemisphere cooling related to the bipolar seesaw—are generally consistent with empirical evidence1, 3, 17. As a result of the coexistence of two glacial ocean circulation states at intermediate heights of the ice sheets, minor changes in the height of the NHISs and the amount of atmospheric CO2 can trigger the rapid climate transitions via a local positive atmosphere–ocean–sea-ice feedback in the North Atlantic. Our results, although based on a single model, thus provide a coherent concept for understanding the recorded millennial-scale variability and abrupt climate changes in the coupled atmosphere–ocean system, as well as their linkages to the volume of the intermediate ice sheets during glacials.

Repository Name: EPIC Alfred Wegener Institut

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Effects of high resolution and spinup time on modeled North Atlantic circulation (2019)

Danek, Christopher ; Scholz, Patrick ; Lohmann, Gerrit

AMER METEOROLOGICAL SOC

In: EPIC3Journal of Physical Oceanography, AMER METEOROLOGICAL SOC, 49(5), pp. 1159-1181, ISSN: 0022-3670

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Publication Date: 2019-06-11

Repository Name: EPIC Alfred Wegener Institut

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Spatio-temporal variability of processes across Antarctic ice-bed-ocean interfaces (2018)

Colleoni, Florence ; de Santis, Laura ; Siddoway, Christine S. ; [et al.]

Nature Publishing Group

In: EPIC3Nature Communications, Nature Publishing Group, 9, ISSN: 2041-1723

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Publication Date: 2018-09-20

Description: Understanding how the Antarctic ice sheet will respond to global warming relies on knowledge of how it has behaved in the past. The use of numerical models, the only means to quantitatively predict the future, is hindered by limitations to topographic data both now and in the past, and in knowledge of how subsurface oceanic, glaciological and hydrological processes interact. Incorporating the variety and interplay of such processes, operating at multiple spatio-temporal scales, is critical to modeling the Antarctic’s system evolution and requires direct observations in challenging locations. As these processes do not observe disciplinary boundaries neither should our future research.

Repository Name: EPIC Alfred Wegener Institut

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A new global ice sheet reconstruction for the past 80 000 years (2021)

Gowan, Evan J. ; Zhang, Xu ; Khosravi, Sara ; [et al.]

Springer Nature

In: EPIC3Nature Communications, Springer Nature, 12(1199), pp. 1-9, ISSN: 2041-1723

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Publication Date: 2021-07-01

Description: The evolution of past global ice sheets is highly uncertain. One example is the missing ice problem during the Last Glacial Maximum (LGM, 26 000-19 000 years before present) – an apparent 8-28 m discrepancy between far-field sea level indicators and modelled sea level from ice sheet reconstructions. In the absence of ice sheet reconstructions, researchers often use marine δ 18 O proxy records to infer ice volume prior to the LGM. We present a global ice sheet reconstruction for the past 80 000 years, called PaleoMIST 1.0, constructed inde- pendently of far-field sea level and δ 18 O proxy records. Our reconstruction is compatible with LGM far-field sea-level records without requiring extra ice volume, thus solving the missing ice problem. However, for Marine Isotope Stage 3 (57 000-29 000 years before present) - a pre-LGM period - our reconstruction does not match proxy-based sea level reconstructions, indicating the relationship between marine δ 18 O and sea level may be more complex than assumed.

Repository Name: EPIC Alfred Wegener Institut

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Reconciling glacial Antarctic water stable isotopes with ice sheet topography and the isotopic paleothermometer (2018)

Werner, Martin ; Jouzel, Jean ; Masson-Delmotte, Valérie ; [et al.]

Springer Nature

In: EPIC3Nature Communications, Springer Nature, 9(3537), ISSN: 2041-1723

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Publication Date: 2018-09-17

Description: Stable water isotope records from Antarctica are key for our understanding of Quaternary climate variations. However, the exact quantitative interpretation of these important climate proxy records in terms of surface temperature, ice sheet height and other climatic changes is still a matter of debate. Here we report results obtained with an atmospheric general circulation model equipped with water isotopes, run at a high-spatial horizontal resolution of one-by-one degree. Comparing different glacial maximum ice sheet reconstructions, a best model data match is achieved for the PMIP3 reconstruction. Reduced West Antarctic elevation changes between 400 and 800 m lead to further improved agreement with ice core data. Our modern and glacial climate simulations support the validity of the isotopic paleothermometer approach based on the use of present-day observations and reveal that a glacial ocean state as displayed in the GLAMAP reconstruction is suitable for capturing the observed glacial isotope changes in Antarctic ice cores.

Repository Name: EPIC Alfred Wegener Institut

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Simulated Atlantic Multidecadal Oscillation during the Holocene (2012)

Wei, Wei ; Lohmann, Gerrit

AMER METEOROLOGICAL SOC

In: EPIC3Journal of Climate, AMER METEOROLOGICAL SOC, (25), pp. 6989-7002, ISSN: 0894-8755

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Publication Date: 2019-07-17

Description: The Atlantic Multidecadal Oscillation (AMO) and its possible change during the Holocene are examined in this study, using long-term simulations of the Earth system model COSMOS. A quasi-persistent ~55- to 80-year cycle characterizing in the North Atlantic sea surface temperature, is highly associated with the multidecadal variability of the Atlantic Meridional Overturning Circulation (AMOC) during the Holocene. This mode can be found throughout the Holocene, indicating that the AMO is dominated by internal climate variability. Stronger-than-normal AMOC results in warmer-than-normal surface temperature, spreading over almost the whole North Hemisphere, in particular the North Atlantic Ocean. During the warm phase of the AMO, more precipitation is detected in the North Atlantic low and high latitudes. It also generates a dipolar seesaw pattern in the sea ice anomaly. The results reveal that the influence of the AMO can be amplified by a more vigorous AMOC variability during the early Holocene in the presence of a remnant of the Laurentide Ice Sheet and when freshwater entered the North Atlantic Ocean. This conclusion could have potential application for the past AMO reconstruction and the future AMO estimation.

Repository Name: EPIC Alfred Wegener Institut

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Predicting the June 2013 European Flooding based on Precipitation, Soil Moisture and Sea Level Pressure (2015)

Ionita, Monica ; Dima, Mihai ; Lohmann, Gerrit ; [et al.]

AMER METEOROLOGICAL SOC

In: EPIC3Journal of Hydrometeorology, AMER METEOROLOGICAL SOC, 16(2), pp. 598-614, ISSN: 1525-755X

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Publication Date: 2015-06-05

Description: Over the past decades Europe has experienced heavy floods with major consequences for thousands of people and billions of Euros worth of damage. In particular, the summer 2013 flood in Central Europe showed how vulnerable modern society is to hydrological extremes and emphasizes once more the need for improved forecast methods of such extreme climatic events. Based on a multiple linear regression model, it is shown here that 55% of the June 2013 Elbe River extreme discharge could have been predicted using May precipitation, soil moisture and sea level pressure. Moreover, our model was able to predict more than 75% of the total Elbe River discharge for June 2013 (in terms of magnitude) by incorporating also the amount of precipitation recorded during the days prior the flood, but the predicted discharge for the June 2013 event was still underestimated by 25%. Given that all predictors used in the model are available at the end of each month, the forecast scheme can be used to predict extreme events and to provide early warnings for upcoming floods. The forecast methodology could be efficient for other rivers also, depending on their location and their climatic background.

Repository Name: EPIC Alfred Wegener Institut

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Sea Surface Temperature of the mid-Piacenzian Ocean: A Data-Model Comparison (2013)

Dowsett, H. J. ; Foley, K. M. ; Stoll, D. K. ; [et al.]

Nature Publishing Group

In: EPIC3Scientific Reports, Nature Publishing Group, 3(2013), ISSN: 2045-2322

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Publication Date: 2019-07-17

Description: The mid-Piacenzian climate represents the most geologically recent interval of long-term average warmth relative to the last million years, and shares similarities with the climate projected for the end of the 21st century. As such, it represents a natural experiment from which we can gain insight into potential climate change impacts, enabling more informed policy decisions for mitigation and adaptation. Here, we present the first systematic comparison of Pliocene sea surface temperature (SST) between an ensemble of eight climate model simulations produced as part of PlioMIP (Pliocene Model Intercomparison Project) with the PRISM (Pliocene Research, Interpretation and Synoptic Mapping) Project mean annual SST field. Our results highlight key regional and dynamic situations where there is discord between the palaeoenvironmental reconstruction and the climate model simulations. These differences have led to improved strategies for both experimental design and temporal refinement of the palaeoenvironmental reconstruction.

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Challenges in reconstructing terrestrial warming of the Pliocene revealed by data-model discord (2013)

Salzmann, U. ; Dolan, A. M. ; Haywood, A. M. ; [et al.]

Nature Publishing Group

In: EPIC3Nature Climate Change, Nature Publishing Group, ISSN: 1758-678X

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Publication Date: 2019-07-17

Description: Comparing simulations of key warm periods in Earth history with contemporaneous geological proxy data is a useful approach for evaluating the ability of climate models to simulate warm, high-CO2 climates that are unprecedented in the more recent past. Here we use a global data set of confidence-assessed, proxy-based temperature estimates and biome reconstructions to assess the ability of eight models to simulate warm terrestrial climates of the Pliocene epoch. The Late Pliocene, 3.6–2.6 million years ago, is an accessible geological interval to understand climate processes of a warmer world. We show that model-predicted surface air temperatures reveal a substantial cold bias in the Northern Hemisphere. Particularly strong data–model mismatches in mean annual temperatures (up to 18 °C) exist in northern Russia. Our model sensitivity tests identify insufficient temporal constraints hampering the accurate configuration of model boundary conditions as an important factor impacting on data–model discrepancies. We conclude that to allow a more robust evaluation of the ability of present climate models to predict warm climates, future Pliocene data–model comparison studies should focus on orbitally defined time slices.

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