The central role of diminishing sea ice in recent Arctic temperature amplification JA Screen, I Simmonds Nature 464 (7293), 1334-1337, 2010 | 2476 | 2010 |
Recent Arctic amplification and extreme mid-latitude weather J Cohen, JA Screen, JC Furtado, M Barlow, D Whittleston, D Coumou, ... Nature geoscience 7 (9), 627-637, 2014 | 2355 | 2014 |
Climate phenomena and their relevance for future regional climate change JH Christensen, KK Kanikicharla, E Aldrian, SI An, IFA Cavalcanti, ... Climate change 2013 the physical science basis: Working group I contribution …, 2013 | 1514 | 2013 |
Insights from Earth system model initial-condition large ensembles and future prospects C Deser, F Lehner, KB Rodgers, T Ault, TL Delworth, PN DiNezio, A Fiore, ... Nature Climate Change 10 (4), 277-286, 2020 | 636 | 2020 |
The impact of Arctic warming on the midlatitude jet‐stream: Can it? Has it? Will it? EA Barnes, JA Screen Wiley Interdisciplinary Reviews: Climate Change 6 (3), 277-286, 2015 | 499 | 2015 |
Exploring links between Arctic amplification and mid‐latitude weather JA Screen, I Simmonds Geophysical Research Letters 40 (5), 959-964, 2013 | 461 | 2013 |
The atmospheric response to three decades of observed Arctic sea ice loss JA Screen, I Simmonds, C Deser, R Tomas Journal of climate 26 (4), 1230-1248, 2013 | 432 | 2013 |
Changes in impacts of climate extremes: human systems and ecosystems J Handmer, Y Honda, ZW Kundzewicz, N Arnell, G Benito, J Hatfield, ... Managing the risks of extreme events and disasters to advance climate change …, 2012 | 421 | 2012 |
Arctic amplification decreases temperature variance in northern mid-to high-latitudes JA Screen Nature Climate Change 4 (7), 577-582, 2014 | 412 | 2014 |
Increasing fall‐winter energy loss from the Arctic Ocean and its role in Arctic temperature amplification JA Screen, I Simmonds Geophysical research letters 37 (16), 2010 | 406 | 2010 |
Amplified mid-latitude planetary waves favour particular regional weather extremes JA Screen, I Simmonds Nature Climate Change 4 (8), 704-709, 2014 | 385 | 2014 |
Nonlinear response of mid-latitude weather to the changing Arctic JE Overland, K Dethloff, JA Francis, RJ Hall, E Hanna, SJ Kim, JA Screen, ... Nature Climate Change 6 (11), 992-999, 2016 | 374 | 2016 |
Local and remote controls on observed Arctic warming JA Screen, C Deser, I Simmonds Geophysical Research Letters 39 (10), 2012 | 364 | 2012 |
Consistency and discrepancy in the atmospheric response to Arctic sea-ice loss across climate models JA Screen, C Deser, DM Smith, X Zhang, R Blackport, PJ Kushner, ... Nature Geoscience 11 (3), 155-163, 2018 | 347 | 2018 |
Atmospheric impacts of Arctic sea-ice loss, 1979–2009: Separating forced change from atmospheric internal variability JA Screen, C Deser, I Simmonds, R Tomas Climate dynamics 43, 333-344, 2014 | 292 | 2014 |
Minimal influence of reduced Arctic sea ice on coincident cold winters in mid-latitudes R Blackport, JA Screen, K van der Wiel, R Bintanja Nature climate change 9 (9), 697-704, 2019 | 275 | 2019 |
The atmospheric role in the Arctic water cycle: A review on processes, past and future changes, and their impacts T Vihma, J Screen, M Tjernström, B Newton, X Zhang, V Popova, C Deser, ... Journal of Geophysical Research: Biogeosciences 121 (3), 586-620, 2016 | 272 | 2016 |
The Polar Amplification Model Intercomparison Project (PAMIP) contribution to CMIP6: investigating the causes and consequences of polar amplification DM Smith, JA Screen, C Deser, J Cohen, JC Fyfe, J García-Serrano, ... Geoscientific Model Development 12 (3), 1139-1164, 2019 | 234 | 2019 |
Contribution of sea-ice loss to Arctic amplification is regulated by Pacific Ocean decadal variability JA Screen, JA Francis Nature Climate Change 6 (9), 856-860, 2016 | 226 | 2016 |
New climate models reveal faster and larger increases in Arctic precipitation than previously projected MR McCrystall, J Stroeve, M Serreze, BC Forbes, JA Screen Nature communications 12 (1), 6765, 2021 | 207 | 2021 |