Bibliography
Filters: Author is McTainsh, GH [Clear All Filters]
(2005). The 23rd October, 2002 dust storm in eastern Australia: characteristics and meteorological conditions.
Atmospheric Environment. 39, 1227–1236. Abstract
(2009). A Model to Predict Land Susceptibility to Wind Erosion in Western Queensland, Australia.
Environment Modelling and Software. 24, 214-227.
(2007). Numerical simulation of the October 2002 dust event in Australia.
Journal of Geophysical Research. 112,
(2005). Influence of the 23 October 2002 dust storm on the air quality of four Australian cities.
Water, Air and Soil Pollution. 164, 329-348.
(2006). AUSLEM (AUStralian Land Erodibility Model): A tool for identifying wind erosion hazard in Australia.
Geomorphology. 78, 179–200.
(2008). DustWatch: community networks to improve wind erosion monitoring in Australia.
Earth Surface Processes and Landforms. 33, 1912-1926.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2009). A Model to Predict Land Susceptibility to Wind Erosion in Western Queensland, Australia.
Environment Modelling and Software. 24, 214-227.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2008). DustWatch: community networks to improve wind erosion monitoring in Australia.
Earth Surface Processes and Landforms. 33, 1912-1926.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2008). Livelihoods in desert Australia from managing natural and cultural resources: DustWatch possibilities.
DKCRC Working Paper. 22, 30.
(2009). A Model to Predict Land Susceptibility to Wind Erosion in Western Queensland, Australia.
Environment Modelling and Software. 24, 214-227.
(2006). AUSLEM (AUStralian Land Erodibility Model): A tool for identifying wind erosion hazard in Australia.
Geomorphology. 78, 179–200.
(2008). DustWatch: community networks to improve wind erosion monitoring in Australia.
Earth Surface Processes and Landforms. 33, 1912-1926.
(2008). DustWatch: community networks to improve wind erosion monitoring in Australia.
Earth Surface Processes and Landforms. 33, 1912-1926.
(2009). Simulation of the spatiotemporal aspects of land erodibility in the northeast Lake Eyre Basin, Australia, 1980–2006.
Journal of Geophysical Research. 114, F01013.
(2007). Numerical simulation of the October 2002 dust event in Australia.
Journal of Geophysical Research. 112,
(2006). AUSLEM (AUStralian Land Erodibility Model): A tool for identifying wind erosion hazard in Australia.
Geomorphology. 78, 179–200.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2008). Livelihoods in desert Australia from managing natural and cultural resources: DustWatch possibilities.
DKCRC Working Paper. 22, 30.
(2008). DustWatch: community networks to improve wind erosion monitoring in Australia.
Earth Surface Processes and Landforms. 33, 1912-1926.
(2011). Dust transporting wind systems in the lower Lake Eyre Basin, Australia: a preliminary study.
Aeolian Research. 2, 205-214.
(2009). Simulation of the spatiotemporal aspects of land erodibility in the northeast Lake Eyre Basin, Australia, 1980–2006.
Journal of Geophysical Research. 114, F01013.
(2009). Simulation of the spatiotemporal aspects of land erodibility in the northeast Lake Eyre Basin, Australia, 1980–2006.
Journal of Geophysical Research. 114, F01013.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2008). Livelihoods in desert Australia from managing natural and cultural resources: DustWatch possibilities.
DKCRC Working Paper. 22, 30.
(2007). Numerical simulation of the October 2002 dust event in Australia.
Journal of Geophysical Research. 112,
(2006). AUSLEM (AUStralian Land Erodibility Model): A tool for identifying wind erosion hazard in Australia.
Geomorphology. 78, 179–200.
(2005). Influence of the 23 October 2002 dust storm on the air quality of four Australian cities.
Water, Air and Soil Pollution. 164, 329-348.
(2009). A Model to Predict Land Susceptibility to Wind Erosion in Western Queensland, Australia.
Environment Modelling and Software. 24, 214-227.
(2008). DustWatch: community networks to improve wind erosion monitoring in Australia.
Earth Surface Processes and Landforms. 33, 1912-1926.
(2005). The 23rd October, 2002 dust storm in eastern Australia: characteristics and meteorological conditions.
Atmospheric Environment. 39, 1227–1236. Abstract
(2008). Livelihoods in desert Australia from managing natural and cultural resources: DustWatch possibilities.
DKCRC Working Paper. 22, 30.
(2009). Wind erosion risk management and pastoral product certification for more environmentally sustainable production.
DKCRC Research Report. 24, 83.
(2005). The 23rd October, 2002 dust storm in eastern Australia: characteristics and meteorological conditions.
Atmospheric Environment. 39, 1227–1236. Abstract
(2005). Influence of the 23 October 2002 dust storm on the air quality of four Australian cities.
Water, Air and Soil Pollution. 164, 329-348.
(2005). Influence of the 23 October 2002 dust storm on the air quality of four Australian cities.
Water, Air and Soil Pollution. 164, 329-348.
(2005). The 23rd October, 2002 dust storm in eastern Australia: characteristics and meteorological conditions.
Atmospheric Environment. 39, 1227–1236. Abstract
(2008). Livelihoods in desert Australia from managing natural and cultural resources: DustWatch possibilities.
DKCRC Working Paper. 22, 30.