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Your search keyword '"Bartolomé, Miguel"' showing total 5 results
Start Over Author "Bartolomé, Miguel" Journal proceedings of the national academy of sciences of the united states of america
5 results on '"Bartolomé, Miguel"'

1. Timing and structure of the Younger Dryas event and its underlying climate dynamics

Author

Cheng, Hai, Zhang, Haiwei, Spötl, Christoph, Baker, Jonathan, Sinha, Ashish, Li, Hanying, Bartolomé, Miguel, Moreno, Ana, Kathayat, Gayatri, Zhao, Jingyao, Dong, Xiyu, Li, Youwei, Ning, Youfeng, Jia, Xue, Zong, Baoyun, Brahim, Yassine Ait, Pérez-Mejías, Carlos, Cai, Yanjun, Novello, Valdir F, Cruz, Francisco W, Severinghaus, Jeffrey P, An, Zhisheng, and Edwards, R Lawrence

Subjects
Climate Action, Younger Dryas, timing, structure, event phasing, climate dynamics
Abstract

The Younger Dryas (YD), arguably the most widely studied millennial-scale extreme climate event, was characterized by diverse hydroclimate shifts globally and severe cooling at high northern latitudes that abruptly punctuated the warming trend from the last glacial to the present interglacial. To date, a precise understanding of its trigger, propagation, and termination remains elusive. Here, we present speleothem oxygen-isotope data that, in concert with other proxy records, allow us to quantify the timing of the YD onset and termination at an unprecedented subcentennial temporal precision across the North Atlantic, Asian Monsoon-Westerlies, and South American Monsoon regions. Our analysis suggests that the onsets of YD in the North Atlantic (12,870 ± 30 B.P.) and the Asian Monsoon-Westerlies region are essentially synchronous within a few decades and lead the onset in Antarctica, implying a north-to-south climate signal propagation via both atmospheric (decadal-time scale) and oceanic (centennial-time scale) processes, similar to the Dansgaard-Oeschger events during the last glacial period. In contrast, the YD termination may have started first in Antarctica at ∼11,900 B.P., or perhaps even earlier in the western tropical Pacific, followed by the North Atlantic between ∼11,700 ± 40 and 11,610 ± 40 B.P. These observations suggest that the initial YD termination might have originated in the Southern Hemisphere and/or the tropical Pacific, indicating a Southern Hemisphere/tropics to North Atlantic-Asian Monsoon-Westerlies directionality of climatic recovery.

Published
2020

4. Timing and structure of the Younger Dryas event and its underlying climate dynamics.

Author

Hai Cheng, Haiwei Zhanga, Spötl, Christoph, Baker, Jonathan, Sinha, Ashish, Hanying Li, Bartolomé, Miguel, Moreno, Ana, Kathayat, Gayatri, Jingyao Zhao, Xiyu Dong, Youwei Li, Youfeng Ning, Xue Jia, Baoyun Zong, Ait Brahim, Yassine, Pérez-Mejiás, Carlos, Yanjun Cai, Novello, Valdir F., and Cruz, Francisco W.

Subjects
YOUNGER Dryas, GLACIATION, CLIMATOLOGY
Abstract

The Younger Dryas (YD), arguably the most widely studied millennialscale extreme climate event, was characterized by diverse hydroclimate shifts globally and severe cooling at high northern latitudes that abruptly punctuated the warming trend from the last glacial to the present interglacial. To date, a precise understanding of its trigger, propagation, and termination remains elusive. Here, we present speleothem oxygen-isotope data that, in concert with other proxy records, allow us to quantify the timing of the YD onset and termination at an unprecedented subcentennial temporal precision across the North Atlantic, Asian Monsoon-Westerlies, and South American Monsoon regions. Our analysis suggests that the onsets of YD in the North Atlantic (12,870 ± 30 B.P.) and the Asian Monsoon-Westerlies region are essentially synchronous within a few decades and lead the onset in Antarctica, implying a north-to-south climate signal propagation via both atmospheric (decadal-time scale) and oceanic (centennial-time scale) processes, similar to the Dansgaard– Oeschger events during the last glacial period. In contrast, the YD termination may have started first in Antarctica at ∼11,900 B.P., or perhaps even earlier in the western tropical Pacific, followed by the North Atlantic between ∼11,700 ± 40 and 11,610 ± 40 B.P. These observations suggest that the initial YD termination might have originated in the Southern Hemisphere and/or the tropical Pacific, indicating a Southern Hemisphere/tropics to North Atlantic–Asian Monsoon-Westerlies directionality of climatic recovery. [ABSTRACT FROM AUTHOR]

Published
2020
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5. Abrupt climate changes during Termination III in Southern Europe.

Author

Moreno, Ana, Pérez-Mejías, Carlos, Bartolomé, Miguel, Sancho, Carlos, Stoll, Heather, Cacho, Isabel, Edwards, R. Lawrence, and Hai Cheng

Subjects
CLIMATE change, QUATERNARY paleoclimatology, WATER supply, MONSOONS, OCEAN-atmosphere interaction
Abstract

The Late Quaternary glacial-interglacial transitions represent the highest amplitude climate changes over the last million years. Unraveling the sequence of events and feedbacks at Termination III (T-III), including potential abrupt climate reversals similar to those of the last Termination, has been particularly challenging due to the scarcity of well-dated records worldwide. Here, we present speleothem data from southern Europe covering the interval from 262.7 to 217.9 kyBP, including the transition from marine isotope stage (MIS) 8 to MIS 7e. High-resolution δ13C, δ18O, and Mg/Ca profiles reveal major millennial-scale changes in aridity manifested in changing water availability and vegetation productivity. uranium-thorium dates provide a solid chronology for two millennial-scale events (S8.1 and S8.2) which, compared with the last two terminations, has some common features with Heinrich 1 and Heinrich 2 in Termination I (T-I). [ABSTRACT FROM AUTHOR]

Published
2017
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