关注
Russell Blackport
Russell Blackport
Environment and Climate Change Canada
在 canada.ca 的电子邮件经过验证
标题
引用次数
引用次数
年份
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
341*2018
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
264*2019
Insignificant effect of Arctic amplification on the amplitude of midlatitude atmospheric waves
R Blackport, JA Screen
Science advances 6 (8), eaay2880, 2020
179*2020
The influence of weather regimes on European renewable energy production and demand
K van der Wiel, HC Bloomfield, RW Lee, LP Stoop, R Blackport, ...
Environmental Research Letters 14 (9), 094010, 2019
1272019
Isolating the atmospheric circulation response to Arctic sea ice loss in the coupled climate system
R Blackport, PJ Kushner
Journal of Climate 30 (6), 2163-2185, 2017
1192017
Meteorological conditions leading to extreme low variable renewable energy production and extreme high energy shortfall
K van der Wiel, LP Stoop, BRH Van Zuijlen, R Blackport, ...
Renewable and Sustainable Energy Reviews 111, 261-275, 2019
1162019
Weakened evidence for mid-latitude impacts of Arctic warming
R Blackport, JA Screen
Nature Climate Change 10 (12), 1065-1066, 2020
115*2020
The transient and equilibrium climate response to rapid summertime sea ice loss in CCSM4
R Blackport, PJ Kushner
Journal of Climate 29 (2), 401-417, 2016
1062016
Influence of Arctic sea ice loss in autumn compared to that in winter on the atmospheric circulation
R Blackport, JA Screen
Geophysical Research Letters 46 (4), 2213-2221, 2019
672019
Ensemble climate-impact modelling: extreme impacts from moderate meteorological conditions
K van der Wiel, FM Selten, R Bintanja, R Blackport, JA Screen
Environmental Research Letters 15 (3), 034050, 2020
662020
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
Observed statistical connections overestimate the causal effects of Arctic sea ice changes on midlatitude winter climate
R Blackport, JA Screen
Journal of Climate 34 (8), 3021-3038, 2021
502021
Is sea-ice-driven Eurasian cooling too weak in models?
JA Screen, R Blackport
Nature Climate Change 9 (12), 934-936, 2019
50*2019
How robust is the atmospheric response to projected Arctic sea ice loss across climate models?
JA Screen, R Blackport
Geophysical Research Letters 46 (20), 11406-11415, 2019
342019
Increased wheat price spikes and larger economic inequality with 2 C global warming
T Zhang, K van der Wiel, T Wei, J Screen, X Yue, B Zheng, F Selten, ...
One Earth 5 (8), 907-916, 2022
302022
Climate models fail to capture strengthening wintertime North Atlantic jet and impacts on Europe
R Blackport, JC Fyfe
Science Advances 8 (45), eabn3112, 2022
282022
The role of extratropical ocean warming in the coupled climate response to Arctic sea ice loss
R Blackport, PJ Kushner
Journal of Climate 31 (22), 9193-9206, 2018
272018
Decreasing subseasonal temperature variability in the northern extratropics attributed to human influence
R Blackport, JC Fyfe, JA Screen
Nature Geoscience 14 (10), 719-723, 2021
262021
On the relative robustness of the climate response to high‐latitude and low‐latitude warming
S Hay, PJ Kushner, R Blackport, KE McCusker
Geophysical Research Letters 45 (12), 6232-6241, 2018
232018
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
142022
系统目前无法执行此操作,请稍后再试。
文章 1–20