Climate Change Predictions with a Fully Resolved Stratosphere
Lead Research Organisation:
University of Reading
Department Name: Meteorology
Abstract
Climate model simulations for the next assessment of the Intergovernmental Panel on Climate Change (IPCC) are currently being prepared by climate modelling centres around the world. In this joint project with the Met Office, fully coupled atmosphere-ocean model simulations will be performed and analysed using a 'high-top' version of the Met Office Hadley Centre climate model that extends to 85km and therefore fully resolves processes in the stratosphere. Simulations of the past (1860-present) and into the future (to 2100) will be carried out. The project will examine the climate change signals predicted by the fully coupled ocean-troposphere-stratosphere model and investigate the stratospheric influence on surface climate. These aims will be achieved by careful analysis of the model runs, together with additional experiments to isolate processes, test mechanisms and improve statistical significance. Particular emphasis will be placed on (a) regional and seasonal patterns of surface change, especially the North Atlantic Oscillation and impacts over Europe, and (b) detection and attribution studies, exploiting the well-known tropospheric warming / stratospheric cooling signature of anthropogenic influence. Comparisons will be carried out with observations, with corresponding low-top model runs that do not fully resolve the stratosphere and with runs from high-top models carried out by other international climate modelling groups.
Publications
Gray L
(2013)
A lagged response to the 11 year solar cycle in observed winter Atlantic/European weather patterns
in Journal of Geophysical Research: Atmospheres
Hansen F
(2013)
Sensitivity of stratospheric dynamics and chemistry to QBO nudging width in the chemistry?climate model WACCM
in Journal of Geophysical Research: Atmospheres
Hood L
(2015)
Solar signals in CMIP-5 simulations: the ozone response
in Quarterly Journal of the Royal Meteorological Society
Ineson S
(2011)
Solar forcing of winter climate variability in the Northern Hemisphere
in Nature Geoscience
Jones C
(2011)
The HadGEM2-ES implementation of CMIP5 centennial simulations
in Geoscientific Model Development
Lu H
(2011)
High- and low-frequency 11-year solar cycle signatures in the Southern Hemispheric winter and spring
in Quarterly Journal of the Royal Meteorological Society
Lu H
(2014)
Mechanisms for the Holton-Tan relationship and its decadal variation HT effect and its decadal variation
in Journal of Geophysical Research: Atmospheres
Manzini E
(2014)
Northern winter climate change: Assessment of uncertainty in CMIP5 projections related to stratosphere-troposphere coupling STRATOSPHERE-TROPOSPHERE CLIMATE CHANGE
in Journal of Geophysical Research: Atmospheres
Maycock AC
(2015)
Possible impacts of a future grand solar minimum on climate: Stratospheric and global circulation changes.
in Journal of geophysical research. Atmospheres : JGR