CLEX researchers and colleagues discovered which species are most important in transferring climate change impacts through the ecosystem using a model that simulated the southeast Australian ecosystem through to 2050.
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A new framework for cyclone jet interaction improve our understanding of how the turbulent atmosphere is organised in coherent motions via the jet stream
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CLEX researchers evaluate the performance of CORDEX simulations over Australia against gridded observations of temperature and precipitation.
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How wet the soil is before a storm can determine the amount of rain that falls. This research also produced some interesting findings for rainfall in Australia.
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New research suggests that the concept of maximum evaporation reported here is a natural attribute of an extensive wet evaporating surface. This provides a fundamental new insight as to how radiation, evaporation and temperature are interlinked.
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Topography plays a key role in the development of extreme rainfall events in Jakarta, Indonesia. The IOD and MJO play a greater role in these extremes than ENSO.
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This research shows accounting for mesophyll conductance in climate models may have important implications for carbon and water fluxes in boreal regions.
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This work examines how climate projections are affected by using different subsets of available climate models. The researchers find several variables need to be optimised independently to get the best results.
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This paper proposes a standard categorisation and naming framework for marine heatwaves that works in a similar way to schemes used for tropical cyclones or earthquakes.
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An improved Tropical Pacific Observing System that is responsive to user needs will provide for better understanding and prediction of the climate system, which will reduce climate uncertainty for society.
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