John L. McBride mainly investigates Climatology, Environmental science, Atmospheric sciences, Tropical cyclone and Storm. While the research belongs to areas of Climatology, John L. McBride spends his time largely on the problem of Precipitation, intersecting his research to questions surrounding Numerical weather prediction models. His study in Atmospheric sciences is interdisciplinary in nature, drawing from both Atmosphere and Vorticity.
His research in Tropical cyclone intersects with topics in Global warming and Climate change. John L. McBride has researched Storm in several fields, including Quantitative precipitation forecast, Weather forecasting and Numerical weather prediction. His research investigates the connection between Annual cycle and topics such as Boreal that intersect with issues in Monsoon.
His main research concerns Climatology, Environmental science, Tropical cyclone, Meteorology and Monsoon. His Climatology study combines topics in areas such as Convection, Atmospheric sciences and Precipitation. John L. McBride works mostly in the field of Atmospheric sciences, limiting it down to concerns involving Intertropical Convergence Zone and, occasionally, Dry spell.
His study focuses on the intersection of Tropical cyclone and fields such as Climate change with connections in the field of Storm. In the field of Meteorology, his study on Radiosonde, Cold front and Numerical weather prediction overlaps with subjects such as Grid. His Monsoon research is multidisciplinary, incorporating elements of Dry season, Tropics, Southern Hemisphere and Wet season.
The scientist’s investigation covers issues in Climatology, Tropical cyclone, Environmental science, Climate change and Sea surface temperature. His Climatology research includes elements of Atmospheric sciences and Vorticity. His Tropical cyclone research is multidisciplinary, incorporating perspectives in Storm, Climate model and Precipitation.
John L. McBride studies Global warming, a branch of Climate change. He has included themes like Downscaling and Storm surge in his Global warming study. His work deals with themes such as El Niño Southern Oscillation and La Niña, which intersect with Sea surface temperature.
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Tropical cyclones and climate change
Thomas R. Knutson;John L. McBride;Johnny Chan;Kerry Emanuel.
Nature Geoscience (2010)
Seasonal Relationships between Australian Rainfall and the Southern Oscillation
J. L. McBride;N. Nicholls.
Monthly Weather Review (1983)
Observational Analysis of Tropical Cyclone Formation. Part II: Comparison of Non-Developing versus Developing Systems
John L. McBride;Raymond Zehr.
Journal of the Atmospheric Sciences (1981)
Verification of precipitation in weather systems: determination of systematic errors
E.E Ebert;J.L McBride.
Journal of Hydrology (2000)
Tropical cyclones and climate change
Kevin J.E. Walsh;John L. McBride;Philip J. Klotzbach;Sethurathinam Balachandran.
Wiley Interdisciplinary Reviews: Climate Change (2016)
Annual Cycle of Southeast Asia—Maritime Continent Rainfall and the Asymmetric Monsoon Transition
C. P. Chang;Zhuo Wang;John McBride;Ching Hwang Liu.
Journal of Climate (2005)
Tropical cyclone formation.
J. L. Mcbride.
Global Perspectives on Tropical Cyclones (1995)
Biogeography of the Australian monsoon tropics
David M.J.S. Bowman;G.K. Brown;G.K. Brown;Michael Braby;J.R. Brown.
Journal of Biogeography (2010)
On Eigen's theory of the self-organization of matter and the evolution of biological macromolecules
Colin J. Thompson;John L. McBride.
Bellman Prize in Mathematical Biosciences (1974)
Spatial Coherence and Predictability of Indonesian Wet Season Rainfall
Malcolm Haylock;John McBride.
Journal of Climate (2001)
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