|£37,099 to £45,585 per annum - Potential to progress to £49,794 per annum through sustained exceptional contribution (Grade 7)
|17th November 2023
|19th January 2024
Contract type: Fixed term until 16/10/2025
Are you interested in working for a world top 100 University? As one of the largest Geography departments in the UK, the Department of Geography at the University of Sheffield has a vibrant community of undergraduates, postgraduates and postdoctoral researchers. The department enjoys a long-standing international reputation for academic research led by staff who are passionate about exploring and teaching on some of the biggest issues facing the world today. The post holder will be working particularly closely with Dr Sihan Li, Dr Julie Jones, Dr Emily Potter and Dr Jeremy Ely, who will provide support and guidance throughout the research project.
We are seeking to recruit a Research Associate in Climate Modelling to design and conduct numerical modelling experiments of past and future climate of the Andes. This is part of a NERC funded project, Deplete and Retreat: The Future of Andean Water Towers, led by Dr Jeremy Ely, to investigate the impact of climate change on snow and ice resources across the Andes.
We seek to appoint someone with experience of numerical climate modelling, with a background in climate science, and ideally with some experience of climate model downscaling.
Climate change is depleting the stores of water held in snow and ice within Andean water towers. These changes are driven by a complex climatology; snowfall amounts are increasingly delivered by fewer, more extreme precipitation events. The steep topography of the Andes represents a challenge for climate models, especially because orographic processes greatly influence precipitation phase and snowfall rates. This makes understanding past, and potential future, changes to mountainous water resources challenging.
This project addresses this challenge by assessing the sensitivity of water resources in 10 key catchments across the Andes to the changing supplies of snow and ice by integrating observations with climate, ice-flow and hydrology models.
As part of this project, you will design and conduct dynamic downscaling climate model experiments, using the Weather Research and Forecasting Model (WRF). WRF will be run at a resolution sufficient to resolve the orographic processes that operate in the Andes. You will design experiments which span past climate conditions (back to 1850), through to potential future climate scenarios (up to 2100). You will also examine extreme conditions using a stochastic weather generator. The regional climate simulations generated will reveal aspects of the changing Andean climate, be used in further glacial and hydrological modelling experiments, and will be compared to field data collated as part of the project. If desired, there are opportunities for you to undertake fieldwork and for an extended research placement in South America.
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