His primary areas of investigation include Environmental science, Climatology, Climate model, Atmosphere and Meteorology. Anthony C. Hirst integrates Climatology with Linear system in his study. His study on Community Climate System Model is often connected to Control, Model description, Biosphere and Ocean gyre as part of broader study in Climate model.
His Atmosphere research integrates issues from Shallow water equations, Mechanics, Thermal and Geophysics. His Meteorology study combines topics in areas such as Oceanic climate and Downscaling. In the field of Global warming, his study on Effects of global warming overlaps with subjects such as Biome.
The scientist’s investigation covers issues in Climatology, Environmental science, Climate model, Climate change and Atmospheric sciences. His Sea surface temperature, Ocean current, Atmospheric circulation, North Atlantic Deep Water and Thermohaline circulation study are his primary interests in Climatology. Environmental science combines with fields such as Forcing, Global warming, Greenhouse gas, Ocean heat content and Convection in his research.
His work in Climate model addresses issues such as Meteorology, which are connected to fields such as Oceanic climate and Downscaling. His research integrates issues of Atmosphere, El Niño Southern Oscillation and Unified Model in his study of Atmospheric sciences. Many of his research projects under Atmosphere are closely connected to Nonlinear system, Oscillation, State and Linear system with Nonlinear system, Oscillation, State and Linear system, tying the diverse disciplines of science together.
Anthony C. Hirst mainly focuses on Environmental science, Climatology, Climate model, Atmospheric sciences and Climate change. Anthony C. Hirst integrates several fields in his works, including Environmental science, Meteorology, El Niño Southern Oscillation, Ocean heat content, North Atlantic Deep Water and Forcing. Anthony C. Hirst has included themes like Atmosphere, Effects of global warming on oceans and Greenhouse gas in his Climatology study.
His studies in Atmosphere integrate themes in fields like Unified Model and Horizontal resolution. His biological study spans a wide range of topics, including Throughflow, Representative Concentration Pathways and Ocean current. His Atmospheric sciences study combines topics from a wide range of disciplines, such as Thermocline and Convection.
His primary scientific interests are in Environmental science, Climatology, Climate model, Ocean heat content and Climate change. He integrates many fields, such as Environmental science and engineering, in his works. His work carried out in the field of Effects of global warming on oceans brings together such families of science as North Atlantic Deep Water, Thermohaline circulation and Abrupt climate change.
His Thermal expansion research incorporates Forcing, Coupled model intercomparison project, Sea level rise and Volcano. His Coupling research covers fields of interest such as Atmospheric physics, Meteorology, Control, Model description and Community Climate System Model. His Atmospheric physics study is related to the wider topic of Atmosphere.
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Interannual variability in a tropical atmosphere−ocean model: influence of the basic state, ocean geometry and nonlinearity
David S. Battisti;Anthony C. Hirst.
Journal of the Atmospheric Sciences (1989)
Response of ocean ecosystems to climate warming
Jorge L. Sarmiento;Richard D. Slater;Richard T. Barber;Laurent Bopp.
Global Biogeochemical Cycles (2004)
Developments in ocean climate modelling
Stephen M. Griffies;Claus Böning;Frank O. Bryan;Eric P. Chassignet.
Ocean Modelling (2000)
The ACCESS coupled model: description, control climate and evaluation
D Bi;M Dix;S Marsland;S O'Farrell.
Australian Meteorological and Oceanographic Journal (2013)
Unstable and Damped Equatorial Modes in Simple Coupled Ocean-Atmosphere Models
Anthony C. Hirst.
Journal of the Atmospheric Sciences (1986)
Footprinting: A seasonal connection between the tropics and mid-latitudes
Daniel J. Vimont;David S. Battisti;Anthony C. Hirst.
Geophysical Research Letters (2001)
The Role of Indonesian Throughflow in a Global Ocean GCM
Anthony C. Hirst;J. S. Godfrey.
Journal of Physical Oceanography (1993)
Long‐term changes in dissolved oxygen concentrations in the ocean caused by protracted global warming
R. J. Matear;A. C. Hirst.
Global Biogeochemical Cycles (2003)
Aerosol- and greenhouse gas-induced changes in summer rainfall and circulation in the Australasian region: a study using single-forcing climate simulations
L. D. Rotstayn;S. J. Jeffrey;M. A. Collier;S. M. Dravitzki.
Atmospheric Chemistry and Physics (2012)
Climate change feedback on the future oceanic CO2 uptake
Richard J. Matebr;Anthony C. Hirst.
Tellus B (1999)
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