Export 10 results:
Filters: Keyword is Fire weather [Clear All Filters]
Climate Change Significantly Alters Future Wildfire Mitigation Opportunities in Southeastern Australia. Geophysical Research Letters 47, (2020).
Deconstructing factors contributing to the 2018 fire weather in Queensland, Australia. Explaining Extreme Events of 2018 from a Climate Perspective 101, S15-S21 (2020).
Pyrocumulonimbus Firepower Threshold: Assessing the atmospheric potential for pyroCb. Weather and Forecasting (2020). doi:https://doi.org/10.1175/WAF-D-20-0027.1
Climate change effects on the frequency, seasonality and interannual variability of suitable prescribed burning weather conditions in south-eastern Australia. Agricultural and Forest Meteorology 271, (2019).
Climate Change Increases the Potential for Extreme Wildfires. Geophysical Research Letters 46, 8517-8526 (2019).
Evolution of an extreme Pyrocumulonimbus-driven wildfire event in Tasmania, Australia. Natural Hazards and Earth System Sciences (2019). doi:https://doi.org/10.5194/nhess-2019-354
Fire weather and prototype fire danger ratings for the Gell River fire, Tasmania. Bushfire and Natural Hazards CRC Research Day AFAC19 (2019). at <https://knowledge.aidr.org.au/resources/australian-journal-of-emergency-management-monograph-series/>
Firefighter tenability and its influence on wildfire suppression. Fire Safety Journal 106, 38-51 (2019).
Science in operations: QFES response to the 2018 Queensland fires. Bushfire and Natural Hazards CRC Research Day AFAC19 (2019). at <https://knowledge.aidr.org.au/resources/australian-journal-of-emergency-management-monograph-series/>
A comparison of the fire weather characteristics of the Melbourne dust storm (1983) and Black Saturday (2009): a high-resolution ACCESS case study. 20th International Congress on Modelling and Simulation 167-172 (2013). at <http://www.mssanz.org.au/modsim2013/A3/fawcett.pdf>