Weather extremes under a changing climate: making better projections of future climate (OSBORN_UENV17EE) - CASE studentship with Atkins

University of East Anglia - School of Environmental Sciences

Start Date:  October 2017

No. of positions available: 1

Supervisor: Prof Timothy Osborn

Project description:  
Scientific significance

The most severe impacts of climate change will arise through changes in the occurrence of extreme weather events, and yet attempts to increase society’s resilience to such extremes is hampered by inadequate understanding of how these extremes will be modified under a changing climate.

This is a pressing and societally-important scientific issue.

This project will bring together two prominent climate change projection techniques (perturbed weather generators and pattern scaling) to obtain a next-generation scientific tool that combines advantages from both.  You will benefit from working across the boundary between scientific research and industry, including an extended research visit at CASE-partner Atkins (, to develop improved projections of extreme weather under climate change.

Research plan

  1. Use existing datasets of observations and climate model projections to identify changing weather extremes across the land masses of the world, and to evaluate how their characteristics change as a function of global warming.
  2. Apply these findings to implement a weather generator (a statistical tool that generates sequences of realistic weather) across different climate regimes, and where the pattern of weather generator parameters can be scaled (pattern scaling) to represent future climate regimes.
  3. There are many scientific challenges to address when applying this across the globe (e.g. representing extreme rainfall from hurricanes that only rarely affect a particular location), by considering the meteorological setting and how they can be represented better in a statistical sense.
  4. These scientific developments will lead to the development of a new tool, suitable for and co-designed by expert practitioners working in industry who use knowledge about the changing risks from extreme weather events.

You will gain transferable skills necessary to pursue a range of academic and non-academic careers: scientific computing tools and programming (e.g. ‘R’) including the ability to use and interpret computer model outputs, industry experience and communication at technical and scientific levels.

Person specification: An Honours degree (2:1 or higher) in a relevant subject area (Environmental Sciences, Physics, Maths, Statistics, Geography or a related discipline), an aptitude for research, numerate and a clear communicator.

Funding notes: This project has been shortlisted for funding by the EnvEast NERC Doctoral Training Partnership, comprising the Universities of East Anglia, Essex and Kent, with twenty other research partners.

Shortlisted applicants will be interviewed on 14/15 February 2017.

Successful candidates who meet RCUK’s eligibility criteria will be awarded a NERC studentship. In most cases, UK and EU nationals who have been resident in the UK for 3 years are eligible for a full award. In 2016/17, the stipend was £14,296.

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