| Climate science special report: Fourth national climate assessment (NCA4), Volume I D Wuebbles, D Fahey, E Takle, K Hibbard, J Arnold, B DeAngelo, ... | 831* | 2017 |
| Divergent consensuses on Arctic amplification influence on midlatitude severe winter weather J Cohen, X Zhang, J Francis, T Jung, R Kwok, J Overland, TJ Ballinger, ... Nature Climate Change 10 (1), 20-29, 2020 | 619 | 2020 |
| A decomposition of feedback contributions to polar warming amplification PC Taylor, M Cai, A Hu, J Meehl, W Washington, GJ Zhang Journal of Climate 26 (18), 7023-7043, 2013 | 291 | 2013 |
| Achieving climate change absolute accuracy in orbit BA Wielicki, DF Young, MG Mlynczak, KJ Thome, S Leroy, J Corliss, ... Bulletin of the American Meteorological Society 94 (10), 1519-1539, 2013 | 275 | 2013 |
| Executive summary DJ Wuebbles, DW Fahey, KA Hibbard, B DeAngelo, S Doherty, K Hayhoe, ... Climate science special report: Fourth national climate assessment 1, 12-34, 2017 | 247 | 2017 |
| Seasonal energy exchange in sea ice retreat regions contributes to differences in projected Arctic warming RC Boeke, PC Taylor Nature Communications 9 (1), 5017, 2018 | 107 | 2018 |
| Covariance between Arctic sea ice and clouds within atmospheric state regimes at the satellite footprint level PC Taylor, S Kato, KM Xu, M Cai Journal of Geophysical Research: Atmospheres 120 (24), 12656-12678, 2015 | 96 | 2015 |
| Physical drivers of climate change D Fahey, S Doherty, KA Hibbard, A Romanou, P Taylor | 89 | 2017 |
| On the increasing importance of air-sea exchanges in a thawing Arctic: A review PC Taylor, BM Hegyi, RC Boeke, LN Boisvert Atmosphere 9 (2), 41, 2018 | 84 | 2018 |
| The unprecedented 2016–2017 Arctic sea ice growth season: The crucial role of atmospheric rivers and longwave fluxes BM Hegyi, PC Taylor Geophysical research letters 45 (10), 5204-5212, 2018 | 70 | 2018 |
| Space‐based observations for understanding changes in the arctic‐boreal zone BN Duncan, LE Ott, JB Abshire, L Brucker, ML Carroll, J Carton, ... Reviews of Geophysics 58 (1), e2019RG000652, 2020 | 66 | 2020 |
| Evaluation of the Arctic surface radiation budget in CMIP5 models RC Boeke, PC Taylor Journal of Geophysical Research: Atmospheres 121 (14), 8525-8548, 2016 | 64 | 2016 |
| On the nature of the Arctic's positive lapse‐rate feedback RC Boeke, PC Taylor, SA Sejas Geophysical Research Letters 48 (1), e2020GL091109, 2021 | 61 | 2021 |
| Process drivers, inter-model spread, and the path forward: A review of amplified Arctic warming PC Taylor, RC Boeke, LN Boisvert, N Feldl, M Henry, Y Huang, ... Frontiers in Earth Science 9, 758361, 2022 | 59 | 2022 |
| Arctic change and possible influence on mid-latitude climate and weather: a US CLIVAR White Paper J Cohen, X Zhang, J Francis, T Jung, R Kwok, J Overland, T Ballinger, ... US CLIVAR reports, 2018 | 53* | 2018 |
| A framework for evaluating climate model performance metrics NC Baker, PC Taylor Journal of Climate 29 (5), 1773-1782, 2016 | 52 | 2016 |
| Arctic cloud annual cycle biases in climate models PC Taylor, RC Boeke, Y Li, DWJ Thompson Atmospheric Chemistry and Physics 19 (13), 8759-8782, 2019 | 51 | 2019 |
| Individual feedback contributions to the seasonality of surface warming SA Sejas, M Cai, A Hu, GA Meehl, W Washington, PC Taylor Journal of Climate 27 (14), 5653-5669, 2014 | 51 | 2014 |
| Tropical outgoing longwave radiation and longwave cloud forcing diurnal cycles from CERES PC Taylor Journal of the Atmospheric Sciences 69 (12), 3652-3669, 2012 | 51 | 2012 |
| Arctic changes and their effects on Alaska and the rest of the United States P Taylor, W Maslowski, J Perlwitz, D Wuebbles | 49 | 2017 |
Robyn BoekeResearch Scientist, NASA Langley Research Center, SSAI在 nasa.gov 的电子邮件经过验证
