Tim Woollings

An event-based approach to understanding decadal fluctuations in the Atlantic meridional overturning circulation

Climate Dynamics Springer Nature 44:1-2 (2015) 163-190

Authors:

Lesley Allison, Ed Hawkins, Tim Woollings

The Met Office Global Coupled model 2.0 (GC2) configuration

GEOSCIENTIFIC MODEL DEVELOPMENT 8:5 (2015) 1509-1524

Authors:

KD Williams, CM Harris, A Bodas-Salcedo, J Camp, RE Comer, D Copsey, D Fereday, T Graham, R Hill, T Hinton, P Hyder, S Ineson, G Masato, SF Milton, MJ Roberts, DP Rowell, C Sanchez, A Shelly, B Sinha, DN Walters, A West, T Woollings, PK Xavier

Large‐scale dynamics associated with clustering of extratropical cyclones affecting Western Europe

Journal of Geophysical Research: Atmospheres American Geophysical Union (AGU) 119:24 (2014) 13-719

Authors:

Joaquim G Pinto, Iñigo Gómara, Giacomo Masato, Helen F Dacre, Tim Woollings, Rodrigo Caballero

Extratropical cyclones in a warmer, moister climate: A recent Atlantic analogue

Geophysical Research Letters 41:23 (2014) 8594-8601

Authors:

M Li, T Woollings, K Hodges, G Masato

Abstract:

Current climate model projections do not exhibit a large change in the intensity of extratropical cyclones. However, there are concerns that current models represent moist processes poorly, and this provides motivation for investigating observational evidence for how cyclones behave in warmer climates. In the North Atlantic in particular, recent decades provide a clear contrast between warm and cold climates due to Atlantic Multidecadal Variability. In this paper we investigate these periods as analogues which may provide a guide to future cyclone behavior. While temperature and moisture rise in recent warm periods as in the projections, differences in energetics and temperature gradients imply that these periods are only partial analogues. The main result from current reanalyses is that while increased cyclone-associated precipitation is seen in the recent warm periods, there is no robust evidence of an increase in cyclone intensity by other measures, such as maximum wind speed or vorticity. A set of low- and high-resolution model simulations are also studied, suggesting that changes in cyclone intensity may be different in higher-resolution reanalyses. Key PointsRecent warm AMV periods are partial analogues of future warmingIn warm periods, cyclone precipitation increases but they do not intensifyChanges in storm intensity may be different at high resolution

Extratropical cyclones in a warmer, moister climate: A recent Atlantic analogue

Geophysical Research Letters American Geophysical Union (AGU) 41:23 (2014) 8594-8601

Authors:

Muxingzi Li, Tim Woollings, Kevin Hodges, Giacomo Masato