Climate dynamics

Interaction of gravity waves with the QBO: A satellite perspective

Journal of Geophysical Research: Atmospheres American Geophysical Union (AGU) 119:5 (2014) 2329-2355

Authors:

M Ern, F Ploeger, P Preusse, JC Gille, LJ Gray, S Kalisch, MG Mlynczak, JM Russell, M Riese

Structure and impact of atmospheric blocking over the Euro‐Atlantic region in present‐day and future simulations

Geophysical Research Letters American Geophysical Union (AGU) 41:3 (2014) 1051-1058

Authors:

G Masato, T Woollings, BJ Hoskins

Exploring recent trends in Northern Hemisphere blocking

Geophysical Research Letters 41:2 (2014) 638-644

Authors:

EA Barnes, E Dunn-Sigouin, G Masato, T Woollings

Abstract:

Observed blocking trends are diagnosed to test the hypothesis that recent Arctic warming and sea ice loss has increased the likelihood of blocking over the Northern Hemisphere. To ensure robust results, we diagnose blocking using three unique blocking identification methods from the literature, each applied to four different reanalyses. No clear hemispheric increase in blocking is found for any blocking index, and while seasonal increases and decreases are found for specific isolated regions and time periods, there is no instance where all three methods agree on a robust trend. Blocking is shown to exhibit large interannual and decadal variability, highlighting the difficulty in separating any potentially forced response from natural variability. ©2014. American Geophysical Union. All Rights Reserved.

Linking Northern Hemisphere blocking and storm track biases in the CMIP5 climate models

Geophysical Research Letters 41:1 (2014) 135-139

Authors:

G Zappa, G Masato, L Shaffrey, T Woollings, K Hodges

Abstract:

The relationship between biases in Northern Hemisphere (NH) atmospheric blocking frequency and extratropical cyclone track density is investigated in 12 CMIP5 climate models to identify mechanisms underlying climate model biases and inform future model development. Biases in the Greenland blocking and summer Pacific blocking frequencies are associated with biases in the storm track latitudes, while biases in winter European blocking frequency are related to the North Atlantic storm track tilt and Mediterranean cyclone density. However, biases in summer European and winter Pacific blocking appear less related with cyclone track density. Furthermore, the models with smaller biases in winter European blocking frequency have smaller biases in the cyclone density in Europe, which suggests that they are different aspects of the same bias. This is not found elsewhere in the NH. The summer North Atlantic and the North Pacific mean CMIP5 track density and blocking biases might therefore have different origins. Key Points Evidence of relationships between blocking frequency and storm track biases Winter storm track and blocking biases over Europe are largely the same bias In other regions, different processes affect blocking and storm tracks biases ©2013. American Geophysical Union. All Rights Reserved.

Arctic warming, atmospheric blocking and cold European winters in CMIP5 models

Environmental Research Letters 9:1 (2014)

Authors:

T Woollings, B Harvey, G Masato

Abstract:

Amplified Arctic warming is expected to have a significant long-term influence on the midlatitude atmospheric circulation by the latter half of the 21st century. Potential influences of recent and near future Arctic changes on shorter timescales are much less clear, despite having received much recent attention in the literature. In this letter, climate models from the recent CMIP5 experiment are analysed for evidence of an influence of Arctic temperatures on midlatitude blocking and cold European winters in particular. The focus is on the variability of these features in detrended data and, in contrast to other studies, limited evidence of an influence is found. The occurrence of cold European winters is found to be largely independent of the temperature variability in the key Barents-Kara Sea region. Positive correlations of the Barents-Kara temperatures with Eurasian blocking are found in some models, but significant correlations are limited. © 2014 IOP Publishing Ltd.