|A stratigraphic framework for abrupt climatic changes during the Last Glacial period based on three synchronized Greenland ice-core records: refining and extending the INTIMATE …|
SO Rasmussen, M Bigler, SP Blockley, T Blunier, SL Buchardt, ...
Quaternary Science Reviews 106, 14-28, 2014
|Precise interpolar phasing of abrupt climate change during the last ice age|
Nature, doi:10.1038/nature14401, 2015
|The last deglaciation: timing the bipolar seesaw|
JB Pedro, TD Van Ommen, SO Rasmussen, VI Morgan, J Chappellaz, ...
Climate of the Past 7 (2), 671-683, 2011
|Beyond the bipolar seesaw: Toward a process understanding of interhemispheric coupling|
JB Pedro, M Jochum, C Buizert, F He, S Barker, SO Rasmussen
Quaternary Science Reviews 192, 27-46, 2018
|The spatial extent and dynamics of the Antarctic Cold Reversal|
JB Pedro, HC Bostock, CM Bitz, F He, MJ Vandergoes, EJ Steig, ...
Nature Geoscience 9 (1), 51-55, 2016
|Global atmospheric teleconnections during Dansgaard–Oeschger events|
BR Markle, EJ Steig, C Buizert, SW Schoenemann, CM Bitz, TJ Fudge, ...
Nature Geoscience 10 (1), 36-40, 2017
|Abrupt ice-age shifts in southern westerly winds and Antarctic climate forced from the north|
C Buizert, M Sigl, M Severi, BR Markle, JJ Wettstein, JR McConnell, ...
Nature 563 (7733), 681-685, 2018
|Tightened constraints on the time-lag between Antarctic temperature and CO2 during the last deglaciation|
JB Pedro, SO Rasmussen, TD Van Ommen
Climate of the Past 8 (4), 1213-1221, 2012
|Evolving southwest African response to abrupt deglacial North Atlantic climate change events|
BM Chase, A Boom, AS Carr, M Carré, M Chevalier, ME Meadows, ...
Quaternary Science Reviews 121, 132-136, 2015
|Consistently dated Atlantic sediment cores over the last 40 thousand years|
C Waelbroeck, BC Lougheed, N Vazquez Riveiros, L Missiaen, J Pedro, ...
Scientific data 6 (1), 165, 2019
|Large flux of iron from the Amery Ice Shelf marine ice to Prydz Bay, East Antarctica|
L Herraiz‐Borreguero, D Lannuzel, P Van Der Merwe, A Treverrow, ...
Journal of Geophysical Research: Oceans 121 (8), 6009-6020, 2016
|Southern Ocean deep convection as a driver of Antarctic warming events|
JB Pedro, T Martin, EJ Steig, M Jochum, W Park, SO Rasmussen
Geophysical Research Letters 43 (5), 2192-2199, 2016
|Evidence for climate modulation of the 10Be solar activity proxy|
J Pedro, T van Ommen, M Curran, V Morgan, A Smith, A McMorrow
Journal of Geophysical Research 111 (D21), D21105, 2006
|Solar and climate influences on ice core 10Be records from Antarctica and Greenland during the neutron monitor era|
JB Pedro, JR McConnell, TD van Ommen, D Fink, MAJ Curran, AM Smith, ...
Earth and Planetary Science Letters 355, 174-186, 2012
|High-resolution records of the beryllium-10 solar activity proxy in ice from Law Dome, East Antarctica: measurement, reproducibility and principal trends|
JB Pedro, AM Smith, KJ Simon, TD van Ommen, MAJ Curran
Climate of the Past 7, 707-721, 2011
|Beryllium‐10 transport to Antarctica: Results from seasonally resolved observations and modeling|
JB Pedro, UE Heikkilä, A Klekociuk, AM Smith, TD Van Ommen, ...
Journal of Geophysical Research: Atmospheres 116 (D23), 2011
|The anatomy of past abrupt warmings recorded in Greenland ice|
E Capron, SO Rasmussen, TJ Popp, T Erhardt, H Fischer, A Landais, ...
Nature Communications 12 (1), 2106, 2021
|A spatiotemporal reconstruction of sea-surface temperatures in the North Atlantic during Dansgaard–Oeschger events 5–8|
MF Jensen, A Nummelin, SB Nielsen, H Sadatzki, E Sessford, ...
Climate of the Past 14 (6), 901-922, 2018
|Two‐timescale carbon cycle response to an AMOC collapse|
SB Nielsen, M Jochum, JB Pedro, C Eden, R Nuterman
Paleoceanography and Paleoclimatology 34 (4), 511-523, 2019
|Correlation confidence limits for unevenly sampled data|
J Roberts, M Curran, S Poynter, A Moy, T van Ommen, T Vance, C Tozer, ...
Computers & Geosciences 104, 120-124, 2017