Orographic Flows and the Climate of the Antarctic Peninsula (OFCAP)

Lead Research Organisation: University of East Anglia
Department Name: Environmental Sciences


The Antarctic Peninsula is currently one of the most rapidly warming regions on Earth. Large environmental changes have occurred as a result of this warming, most notably the retreat and rapid disintegration of some of the floating ice shelves that fringe the Peninsula. Subsequent to the loss of ice shelves, glaciers draining the Peninsula ice sheet have accelerated, contributing to global sea level rise. The forces driving this rapid regional warming are not fully understood, but analysis of limited climatiological data from the region suggests a link between rapid summer warming on the eastern side of the Peninsula and an increase in the strength of the prevailing westerly winds. The strengthening of the westerlies has already been attributed, with some degree of confidence, to atmospheric circulation changes associated with anthropogenic forcing, particularly stratospheric ozone depletion and increases in greenhouse gases. It is thus highly probable that anthropogenic forcing is contributing to the rapid warming of the Peninsula. We propose an integrated programme of field observations, analysis and modelling aimed at understanding of how the westerly winds interact with the mountains of the Antarctic Peninsula and how these interactions control the climate of the eastern side of the Peninsula. Our field observations will be concentrated into a one-month (January 2011) intensive field campaign. During this period, atmospheric flow along a transect across the Antarctic Peninsula mountains at around 67 degrees south will be observed using an instrumented aircraft and four automatic weather stations along the line of the transect. Atmospheric conditions on the upwind (western) and downwind (eastern) sides of the mountains will be measured using balloon-borne radiosondes while the fluxes of energy (solar and terrestrial radiation, turbulent heat fluxes) that drive surface melting will be monitored at a camp on the Larsen Ice Shelf to the east of the Peninsula. In order to obtain a more complete picture of the flow across the Peninsula, we will use these observations in conjunction with the results of high-resolution atmospheric model simulations. Observations and model results will, together, provide new insight into the links between atmospheric flow, orography and surface climate in this region. Having established these links, we will use our new understanding of the controls on regional climate to develop soundly-based future (next 100 years) climate scenarios for this region, using predictions of the changes in large-scale atmospheric flow from the 4th Assessment Report of the Intergovernmental Panel on Climate Change. The results of our work will be of value to many groups of scientists working on environmental change in the Antarctic Peninsula and its wider impacts, including glaciologists, oceanographers and marine and terrestrial biologists. The proposal will also contribute to improving the performance of numerical weather prediction and climate models in mountainous areas generally.


10 25 50
Elvidge A (2016) Foehn warming distributions in nonlinear and linear flow regimes: a focus on the Antarctic Peninsula in Quarterly Journal of the Royal Meteorological Society
Elvidge A (2015) Foehn jets over the Larsen C Ice Shelf, Antarctica in Quarterly Journal of the Royal Meteorological Society
Elvidge A (2016) The Causes of Foehn Warming in the Lee of Mountains in Bulletin of the American Meteorological Society
Description We have discovered a new type of meteorological phenomena - foehn jets. These are jets of fast moving air that are forced through gaps in mountains during a period of foehn (warm air that descends in the lee of a mountain range). These foehn jets are relatively cold and moist when compared to non-jet foehn air.

We have quantified for the first time the mechanisms of foehn warming, in a paradigm-shifting paper.
Exploitation Route Of interest to the meteorological community, including for operational weather forecasting and climate modelling.
Sectors Environment
Description Evidence for House of Lords
Geographic Reach Multiple continents/international 
Policy Influence Type Gave evidence to a government review
URL http://www.parliament.uk/arcticcom
Description Met Office Science Advisory Committee
Geographic Reach National 
Policy Influence Type Participation in a advisory committee
Impact Advice to Met Office on continuing development of their models and services
Description UEA Christmas Lectures for Children 
Form Of Engagement Activity A talk or presentation
Part Of Official Scheme? No
Geographic Reach Regional
Primary Audience Schools
Results and Impact I delivered one of UEA's Christmas Lectures. These are a local and regional institution, with a sell out audience of 500, and repeated earlier in the week to an audience of local primary schools. Total audience ~800. My talk was entitled 'Journey to a Frozen Land'. The main purpose was inspiration of the next generation.
Year(s) Of Engagement Activity 2015
URL https://www.youtube.com/watch?v=BxhqFvAvUkY