| Response of the midlatitude jets, and of their variability, to increased greenhouse gases in the CMIP5 models EA Barnes, L Polvani Journal of Climate 26 (18), 7117-7135, 2013 | 525 | 2013 |
| 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 | 508 | 2015 |
| Storm track processes and the opposing influences of climate change TA Shaw, M Baldwin, EA Barnes, R Caballero, CI Garfinkel, YT Hwang, ... Nature Geoscience 9 (9), 656-664, 2016 | 487 | 2016 |
| Revisiting the evidence linking Arctic amplification to extreme weather in midlatitudes EA Barnes Geophysical research letters 40 (17), 4734-4739, 2013 | 457 | 2013 |
| Physically interpretable neural networks for the geosciences: Applications to earth system variability BA Toms, EA Barnes, I Ebert‐Uphoff Journal of Advances in Modeling Earth Systems 12 (9), e2019MS002002, 2020 | 301 | 2020 |
| All-season climatology and variability of atmospheric river frequencies over the North Pacific BD Mundhenk, EA Barnes, ED Maloney Journal of Climate 29 (13), 4885-4903, 2016 | 268 | 2016 |
| Exploring recent trends in Northern Hemisphere blocking EA Barnes, E Dunn‐Sigouin, G Masato, T Woollings Geophysical Research Letters 41 (2), 638-644, 2014 | 265 | 2014 |
| CMIP5 projections of Arctic amplification, of the North American/North Atlantic circulation, and of their relationship EA Barnes, LM Polvani Journal of Climate 28 (13), 5254-5271, 2015 | 236 | 2015 |
| Windows of opportunity for skillful forecasts subseasonal to seasonal and beyond A Mariotti, C Baggett, EA Barnes, E Becker, A Butler, DC Collins, ... Bulletin of the American Meteorological Society 101 (5), E608-E625, 2020 | 230 | 2020 |
| Quantifying the role of internal climate variability in future climate trends DWJ Thompson, EA Barnes, C Deser, WE Foust, AS Phillips Journal of Climate 28 (16), 6443-6456, 2015 | 191 | 2015 |
| The influence of the Madden–Julian oscillation on Northern Hemisphere winter blocking SA Henderson, ED Maloney, EA Barnes Journal of Climate 29 (12), 4597-4616, 2016 | 190 | 2016 |
| Towards neural Earth system modelling by integrating artificial intelligence in Earth system science C Irrgang, N Boers, M Sonnewald, EA Barnes, C Kadow, J Staneva, ... Nature Machine Intelligence 3 (8), 667-674, 2021 | 179 | 2021 |
| A methodology for the comparison of blocking climatologies across indices, models and climate scenarios EA Barnes, J Slingo, T Woollings Climate dynamics 38, 2467-2481, 2012 | 177 | 2012 |
| Skillful empirical subseasonal prediction of landfalling atmospheric river activity using the Madden–Julian oscillation and quasi-biennial oscillation BD Mundhenk, EA Barnes, ED Maloney, CF Baggett NPJ Climate and Atmospheric Science 1 (1), 20177, 2018 | 166 | 2018 |
| Extreme moisture transport into the Arctic linked to Rossby wave breaking C Liu, EA Barnes Journal of Geophysical Research: Atmospheres 120 (9), 3774-3788, 2015 | 153 | 2015 |
| Contrasting interannual and multidecadal NAO variability T Woollings, C Franzke, DLR Hodson, B Dong, EA Barnes, CC Raible, ... Climate Dynamics 45, 539-556, 2015 | 150 | 2015 |
| Primary modes of global drop size distributions B Dolan, B Fuchs, SA Rutledge, EA Barnes, EJ Thompson Journal of the Atmospheric Sciences 75 (5), 1453-1476, 2018 | 141 | 2018 |
| Advancing atmospheric river forecasts into subseasonal‐to‐seasonal time scales CF Baggett, EA Barnes, ED Maloney, BD Mundhenk Geophysical Research Letters 44 (14), 7528-7536, 2017 | 132 | 2017 |
| Detection of Rossby wave breaking and its response to shifts of the midlatitude jet with climate change EA Barnes, DL Hartmann Journal of Geophysical Research: Atmospheres 117 (D9), 2012 | 123 | 2012 |
| Memory matters: A case for Granger causality in climate variability studies MC McGraw, EA Barnes Journal of climate 31 (8), 3289-3300, 2018 | 121 | 2018 |
