My research is centered around issues in regional climate and water
I have a strong background in mathematics and hence much of my research
development and application of modelling tools. My current research
about the regional impacts of changes in climate - both past and
future - and the strength of the interaction between the land surface
and atmosphere. My main interests include modeling regional climate,
studies of water resource issues, changing climate impacts on water
quantity and changing land use impacts on water.
CORDEX (Coordinated Regional Climate Downscaling Experiment) is an international project providing global coordination of Regional Climate Downscaling for improved regional climate change adaptation and impact assessment. I am lead of the CORDEX-AustralAsia domain. This project is focused on downscaling CMIP5 Global Climate Model simulations and, along with NARCliM, will provide the most comprehensive regional scale climate projections to date.
NSW / ACT Regional Climate Modelling (NARCliM) project
NARCliM is producing an ensemble of regional climate projections over south-east Australia in collaboration with the NSW government Office of Environment and Heritage. These simulations will be used to investigate regional climate processes and their future changes, as well as facilitating climate change impacts and adaptation research.
East Coast Low project
This project is part of the Eastern Seaboard Climate Change Initiative (ESCCI) sponsored by the NSW government Office of Environment and Heritage. The focus of this project is to use relatively high resolution (10km) regional climate model simulations to investigate how the frequency and intensity of East Coast Lows may change in the future due to global warming. These storm systems often develop quickly and can remain relatively small spatially, making them difficult for global models to capture. The project will also attempt to quantify the influence of local topography and sea surface temperatures on the East Coast Lows.
Sub-daily precipitation extremes
This project is an international collaboration initiated by the GEWEX Hydroclimate Panel. Several studies have used local data to show that sub-daily precipitation extremes can be intensifying even if at daily and longer time-scales this is not the case. This project is aiming to bring together a large dataset of high quality sub-daily precipitation from around the globe. Trends in this sub-daily precipitation can then be investigated globally including questions around mechanistic causes and model capabilities.
This project focuses on land-atmosphere interactions in
Basin. I am attempting to answer questions concerning the effects of
land-atmosphere feedbacks on precipitation in the watershed. What is
the extent of precipitation
recylcing in the MDB? Where is the land-atmosphere interaction
The major tool for this
study is a regional climate
model. In this case I am using a version of the
Weather Research and Forecasting (WRF) model.
This work contributes to the Australian Energy and Water Exchanges initiative (OzEWEX).
research I have
been involved with