Greenland records of aerosol source and atmospheric lifetime changes from the Eemian to the Holocene.

The Northern Hemisphere experienced dramatic changes during the last glacial, featuring vast ice sheets and abrupt climate events, while high northern latitudes during the last interglacial (Eemian) were warmer than today. Here we use high-resolution aerosol records from the Greenland NEEM ice core...

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Bibliographic Details
Main Authors: Schüpbach, S, Fischer, H, Bigler, M, Erhardt, T, Gfeller, G, Leuenberger, D, Mini, O, Mulvaney, R, Abram, NJ, Fleet, L, Frey, MM, Thomas, E, Svensson, A, Dahl-Jensen, D, Kettner, E, Kjaer, H, Seierstad, I, Steffensen, JP, Rasmussen, SO, Vallelonga, P, Winstrup, M, Wegner, A, Twarloh, B, Wolff, K, Schmidt, K, Goto-Azuma, K, Kuramoto, T, Hirabayashi, M, Uetake, J, Zheng, J, Bourgeois, J, Fisher, D, Zhiheng, D, Xiao, C, Legrand, M, Spolaor, A, Gabrieli, J, Barbante, C, Kang, J-H, Hur, SD, Hong, SB, Hwang, HJ, Hong, S, Hansson, M, Iizuka, Y, Oyabu, I, Muscheler, R, Adolphi, F, Maselli, O, McConnell, J, Wolff, EW
Format: Article in Journal/Newspaper
Language:English
Published: Springer Science and Business Media LLC 2018
Subjects:
atmospheric science
biogeochemistry
palaeoclimate
Canada
Greenland
ice core
Iceland
North Atlantic
Sea ice
Online Access:https://www.repository.cam.ac.uk/handle/1810/278247
https://doi.org/10.17863/CAM.25591
Description
Summary:The Northern Hemisphere experienced dramatic changes during the last glacial, featuring vast ice sheets and abrupt climate events, while high northern latitudes during the last interglacial (Eemian) were warmer than today. Here we use high-resolution aerosol records from the Greenland NEEM ice core to reconstruct the environmental alterations in aerosol source regions accompanying these changes. Separating source and transport effects, we find strongly reduced terrestrial biogenic emissions during glacial times reflecting net loss of vegetated area in North America. Rapid climate changes during the glacial have little effect on terrestrial biogenic aerosol emissions. A strong increase in terrestrial dust emissions during the coldest intervals indicates higher aridity and dust storm activity in East Asian deserts. Glacial sea salt aerosol emissions in the North Atlantic region increase only moderately (50%), likely due to sea ice expansion. Lower aerosol concentrations in Eemian ice compared to the Holocene are mainly due to shortened atmospheric residence time, while emissions changed little. NEEM is directed and organized by the Center of Ice and Climate at the Niels Bohr Institute and US NSF, Office of Polar Programs. It is supported by funding agencies and institutions in Belgium (FNRS-CFB and FWO), Canada (NRCan/GSC), China (CAS), Denmark (FIST), France (IPEV, CNRS/INSU, CEA and ANR), Germany (AWI), Iceland (RannIs), Japan (NIPR), Korea (KOPRI), The Netherlands (NWO/ALW), Sweden (VR), Switzerland (SNF), United Kingdom (NERC), and the USA (US NSF, Office of Polar Programs). Long-term support of ice core research at the University of Bern by SNF is gratefully acknowledged.

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