Mark England 个人学术档案 - 学术资源搜索

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lorenzo m. polvanicolumbia university在 columbia.edu 的电子邮件经过验证
Lantao SunResearch Scientist, Department of Atmospheric Science, Colorado State University在 colostate.edu 的电子邮件经过验证
Clara DeserSenior Scientist, NCAR在 ucar.edu 的电子邮件经过验证
Michael PrevidiLamont Associate Research Professor, Columbia University在 ldeo.columbia.edu 的电子邮件经过验证
Alexandra JahnAssociate Professor in Atmospheric and Oceanic Sciences and Institute for Arctic and Alpine Research在 colorado.edu 的电子邮件经过验证
Ian EisenmanProfessor, Scripps Institution of Oceanograpy, UC San Diego在 ucsd.edu 的电子邮件经过验证
Till J. W. WagnerUniversity of Wisconsin Madison在 wisc.edu 的电子邮件经过验证
Karen L. SmithAssociate Professor, Teaching-Stream, University of Toronto在 utoronto.ca 的电子邮件经过验证
Gabriel ChiodoSenior Scientist (SNF Ambizione fellow), ETH Zurich在 columbia.edu 的电子邮件经过验证
James A. ScreenProfessor in Climate Science, University of Exeter | @polar_james在 exeter.ac.uk 的电子邮件经过验证
Nicholas LutskoAssistant Professor of Climate Science, Scripps Institution of Oceanography在 ucsd.edu 的电子邮件经过验证
Paul KushnerProfessor of Physics, University of Toronto在 utoronto.ca 的电子邮件经过验证
Russell BlackportEnvironment and Climate Change Canada在 canada.ca 的电子邮件经过验证
Kelly E. McCuskerAssociate Director, Climate Impact Lab / Rhodium Group在 rhg.com 的电子邮件经过验证
Stephanie HayPostdoctoral Researcher, University of Exeter在 exeter.ac.uk 的电子邮件经过验证
Marika HollandNational Center for Atmospheric Research在 ucar.edu 的电子邮件经过验证
Yu-Chiao LiangNational Taiwan University在 ntu.edu.tw 的电子邮件经过验证
Tom BracegirdleBritish Antarctic Survey在 bas.ac.uk 的电子邮件经过验证
Christopher Wyburn-PowellPhD Candidate. Dept. ATOC, INSTAAR, University of Colorado Boulder在 colorado.edu 的电子邮件经过验证
Nicole FeldlUniversity of California, Santa Cruz在 ucsc.edu 的电子邮件经过验证

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Mark England

Senior Research Fellow at University of Exeter, Royal Commission for the Exhibition of 1851 fellow

在 exeter.ac.uk 的电子邮件经过验证 - 首页

Climate variability Arctic sea ice loss Icebergs Polar climate Internal variability


标题按引用次数排序按年份排序按标题排序	引用次数引用次数	年份
The recent emergence of Arctic amplification MR England, I Eisenman, NJ Lutsko, TJW Wagner Geophysical Research Letters 48 (15), e2021GL094086, 2021	123	2021
Tropical climate responses to projected Arctic and Antarctic sea-ice loss MR England, LM Polvani, L Sun, C Deser Nature Geoscience 13 (4), 275-281, 2020	121*	2020
Nonuniform contribution of internal variability to recent Arctic sea ice loss M England, A Jahn, L Polvani Journal of Climate 32 (13), 4039-4053, 2019	110	2019
Substantial twentieth-century Arctic warming caused by ozone-depleting substances LM Polvani, M Previdi, MR England, G Chiodo, KL Smith Nature Climate Change 10 (2), 130-133, 2020	91	2020
Contrasting the Antarctic and Arctic atmospheric responses to projected sea ice loss in the late twenty-first century M England, L Polvani, L Sun Journal of Climate 31 (16), 6353-6370, 2018	64	2018
Robust response of the Amundsen Sea Low to stratospheric ozone depletion MR England, LM Polvani, KL Smith, L Landrum, MM Holland Geophysical Research Letters 43 (15), 8207-8213, 2016	47	2016
Robust Arctic warming caused by projected Antarctic sea ice loss MR England, LM Polvani, L Sun Environmental Research Letters 15 (10), 104005, 2020	37	2020
Modeling the breakup of tabular icebergs MR England, TJW Wagner, I Eisenman Science advances 6 (51), eabd1273, 2020	33	2020
Back to the future: using long-term observational and paleo-proxy reconstructions to improve model projections of Antarctic climate TJ Bracegirdle, F Colleoni, NJ Abram, NAN Bertler, DA Dixon, M England, ... Geosciences 9 (6), 255, 2019	29	2019
Are multi‐decadal fluctuations in Arctic and Antarctic surface temperatures a forced response to anthropogenic emissions or part of internal climate variability? MR England Geophysical Research Letters 48 (6), e2020GL090631, 2021	21	2021
Spurious climate impacts in coupled sea ice loss simulations MR England, I Eisenman, TJW Wagner Journal of Climate 35 (22), 3801-3811, 2022	20	2022
The role of internal variability in twenty‐first‐century projections of the seasonal cycle of Northern Hemisphere surface temperature V Yettella, MR England Journal of Geophysical Research: Atmospheres 123 (23), 13,149-13,167, 2018	17	2018
Stronger Arctic amplification from ozone-depleting substances than from carbon dioxide YC Liang, LM Polvani, M Previdi, KL Smith, MR England, G Chiodo Environmental Research Letters 17 (2), 024010, 2022	15	2022
Separating the influences of low-latitude warming and sea ice loss on Northern Hemisphere climate change S Hay, PJ Kushner, R Blackport, KE McCusker, T Oudar, L Sun, ... Journal of Climate 35 (8), 2327-2349, 2022	14	2022
Troposphere‐stratosphere dynamical coupling in the southern high latitudes and its linkage to the Amundsen Sea MR England, TA Shaw, LM Polvani Journal of Geophysical Research: Atmospheres 121 (8), 3776-3789, 2016	13	2016
The Montreal Protocol is delaying the occurrence of the first ice-free Arctic summer MR England, LM Polvani Proceedings of the National Academy of Sciences 120 (22), e2211432120, 2023	8	2023
Robust anthropogenic signal identified in the seasonal cycle of tropospheric temperature BD Santer, S Po-Chedley, N Feldl, JC Fyfe, Q Fu, S Solomon, M England, ... Journal of Climate 35 (18), 6075-6100, 2022	8	2022
Distinguishing the impacts of ozone and ozone-depleting substances on the recent increase in Antarctic surface mass balance R Chemke, M Previdi, MR England, LM Polvani The Cryosphere 14 (11), 4135-4144, 2020	8	2020
Large contribution of ozone‐depleting substances to global and Arctic warming in the late 20th century M Sigmond, LM Polvani, JC Fyfe, CJ Smith, JNS Cole, MR England Geophysical Research Letters 50 (5), e2022GL100563, 2023	6	2023
Modeled interannual variability of Arctic sea ice cover is within observational uncertainty C Wyburn-Powell, A Jahn, M R. England Journal of Climate 35 (20), 6827-6842, 2022	6*	2022

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