Strong and deep Atlantic meridional overturning circulation during the last glacial cycle

Böhm, Evelyn; Lippold, Jörg; Gutjahr, Marcus; Frank, Martin; Blaser, Patrick; Antz, Benny; Fohlmeister, Jens; Frank, Norbert; Andersen, Morten B.; Deininger, Michael W.

doi:10.1038/nature14059

Cited by 450 publications

(617 citation statements)

References 64 publications

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“…3d) point to a strong aridification and cooling in eastern Anatolia after 70 ka BP. The observation is consistent with low summer insolation (Berger, 1978;Berger et al, 2007), increased global ice volume (Shackleton, 1987), and cooler sea surface temperature (SST; Cacho et al, 2000), which, combined with the atmospheric effects of a weakening AMOC (Atlantic Meridional Overturning Circulation; Böhm et al, 2015;Bond et al, 1993) contributed to a widespread aridity across the Mediterranean region (e.g., Fletcher et al, 2010;Kwiecien et al, 2009;Sánchez Goñi et al, 2002).…”

Section: Abrupt Climate Changes During Mis 4-2supporting

confidence: 54%

Abrupt climate and vegetation variability of eastern Anatolia during the last glacial

et al. 2015

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Abstract. Detailed analyses of the Lake Van pollen, Ca / K ratio, and stable oxygen isotope record allow the identification of millennial-scale vegetation and environmental changes in eastern Anatolia throughout the last glacial (∼ 111.5-11.7 ka BP). The climate of the last glacial was cold and dry, indicated by low arboreal pollen (AP) levels. The driest and coldest period corresponds to Marine Isotope Stage (MIS) 2 (∼ 28-14.5 ka BP), which was dominated by highest values of xerophytic steppe vegetation.Our high-resolution multi-proxy record shows rapid expansions and contractions of tree populations that reflect variability in temperature and moisture availability. These rapid vegetation and environmental changes can be related to the stadial-interstadial pattern of Dansgaard-Oeschger (DO) events as recorded in the Greenland ice cores. Periods of reduced moisture availability were characterized by enhanced occurrence of xerophytic species and high terrigenous input from the Lake Van catchment area. Furthermore, the comparison with the marine realm reveals that the complex atmosphere-ocean interaction can be explained by the strength and position of the westerlies, which are responsible for the supply of humidity in eastern Anatolia. Influenced by the diverse topography of the Lake Van catchment, more pronounced DO interstadials (e.g., DO 19, 14, 12 and 8) show the strongest expansion of temperate species within the last glacial. However, Heinrich events (HE), characterized by highest concentrations of ice-rafted debris (IRD) in marine sediments, cannot be separated from other DO stadials based on the vegetation composition in eastern Anatolia. In addition, this work is a first attempt to establish a continuous microscopic charcoal record for the last glacial in the Near East.It documents an immediate response to millennial-scale climate and environmental variability and enables us to shed light on the history of fire activity during the last glacial.

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Section: Abrupt Climate Changes During Mis 4-2supporting

confidence: 54%

Abrupt climate and vegetation variability of eastern Anatolia during the last glacial

et al. 2015

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“…However, marine sediment core evidence suggests that the AMOC was temporarily weaker at this time (e.g. Böhm et al, 2015). Furthermore, this cooling persists at 125 ka when the data show an overall warming compared with the present day (see Fig.…”

Section: Resultsmentioning

confidence: 86%

“…The contribution of the Greenland ice sheet to global LIG sea level rise has recently been quantified (Born and Nisancioglu, 2012;Colville et al, 2011;Helsen et al, 2013;NEEM community members, 2013;Quiquet et al, 2013;Stone et al, 2013), with the IPCC Fifth Assessment Report stating a range very likely between 1.4 and 4.3 m of equivalent sea level height . Taking contributions from thermal expansion and mountain glaciers into account and that global sea level was at least 6 m higher than today (Dutton et al, 2015), this implies that a contribution is likely also required from the WAIS (noted specifically by Colville et al, 2011) and/or other parts of the Antarctic ice sheet.…”

Section: Resultsmentioning

confidence: 99%

“…Enhanced insolation forcing in the NH during the penultimate deglaciation resulted in rapid ice sheet retreat and an increase in freshwater input to the North Atlantic and a suppression of the Atlantic Meridional Overturning Circulation (AMOC) near the end of the deglaciation (Carlson, 2008). In addition, marine sediment core evidence shows that North Atlantic Deep Water (NADW) production was reduced compared with the present day but recovered to present-day values by 125 ka (Böhm et al, 2015;Lototskaya and Ganssen, 1999;Oppo et al, 1997).…”

Section: Introductionmentioning

confidence: 99%

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Impact of meltwater on high-latitude early Last Interglacial climate

et al. 2016

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Abstract. Recent data compilations of the early Last Interglacial period have indicated a bipolar temperature response at 130 ka, with colder-than-present temperatures in the North Atlantic and warmer-than-present temperatures in the Southern Ocean and over Antarctica. However, climate model simulations of this period have been unable to reproduce this response, when only orbital and greenhouse gas forcings are considered in a climate model framework. Using a full-complexity general circulation model we perform climate model simulations representative of 130 ka conditions which include a magnitude of freshwater forcing derived from data at this time. We show that this meltwater from the remnant Northern Hemisphere ice sheets during the glacialinterglacial transition produces a modelled climate response similar to the observed colder-than-present temperatures in the North Atlantic at 130 ka and also results in warmer-thanpresent temperatures in the Southern Ocean via the bipolar seesaw mechanism. Further simulations in which the West Antarctic Ice Sheet is also removed lead to warming in East Antarctica and the Southern Ocean but do not appreciably improve the model-data comparison. This integrated modeldata approach provides evidence that Northern Hemisphere freshwater forcing is an important player in the evolution of early Last Interglacial climate.

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“…This finding is at variance with the prevailing view that there was little or no northern deep water present in the glacial North Atlantic (18,19), but a recent synthesis of Nd isotopes in the western Atlantic has also been interpreted as evidence for a glacial source of NADW (20). Furthermore, Böhm et al (21) found that some interstadials and the last interglacial on BR had lower eNd than in the modern ocean. This very low eNd could indicate there were both warm and cold climate processes that formed deep water in the North Atlantic that are inactive today.…”

mentioning

confidence: 69%

Carbon isotope evidence for a northern source of deep water in the glacial western North Atlantic

Keigwin

Swift

2017

Proc. Natl. Acad. Sci. U.S.A.

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The prevailing view of western Atlantic hydrography during the Last Glacial Maximum (LGM) calls for transport and intermixing of deep southern and intermediate northern end members. However, δ13C and Δ14C results on foraminifera from a sediment core at 5.0 km in the northern subtropics show that there may have also been a northern source of relatively young, very dense, nutrient-depleted water during the LGM (18 ky to 21 ky ago). These results, when integrated with data from other western North Atlantic locations, indicate that the ocean was poorly ventilated at 4.2 km, with better ventilation above and below that depth. If this is a signal of water mass source and not nutrient storage, it would indicate that a previously unrecognized deep water end member originated along the western margin of the Labrador Sea, analogous to dense water formation today around Antarctica and in the Okhotsk Sea.

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Strong and deep Atlantic meridional overturning circulation during the last glacial cycle

Cited by 450 publications

References 64 publications

Abrupt climate and vegetation variability of eastern Anatolia during the last glacial

Abrupt climate and vegetation variability of eastern Anatolia during the last glacial

Impact of meltwater on high-latitude early Last Interglacial climate

Carbon isotope evidence for a northern source of deep water in the glacial western North Atlantic

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