Coupled atmospheric and land surface dynamics over southeast Australia: a review, analysis and identification of future research priorities



The southeastern Australian climate and climate variability is driven primarily by large-scale climate dynamics. How these dynamics translate into local effects is influenced by the nature of the landscape, the vegetation, soil moisture, fire, snow, irrigation and orography. This local land-atmosphere coupling can enhance or moderate the large-scale dynamics and have significant influences locally and regionally. This paper reviews the state of knowledge of the coupled land-atmosphere dynamics over southeast Australia and identifies the challenges for future research. Relevant processes are investigated and if possible their importance to regional climate is identified. Many coupled land-atmosphere dynamic processes, identified as important in the Northern Hemisphere studies, remain to be studied in southeast Australia. This represents an important priority for Australian research because this will establish their role in future changes in regional climate over Australia. However, this also represents a significant international priority because the very high natural climate variability in the region provides a laboratory to examine how coupled land-atmosphere dynamic processes may change in other regions if global warming increases the range of natural variability. Copyright © 2010 Royal Meteorological Society