6 results on '"Ye, Harvey"'
Search Results
2. Eastern North Pacific tropical cyclone activity in historical and future CMIP5 experiments: assessment with a model-independent tracking scheme
- Author
-
Bell, Samuel S., Chand, Savin S., Tory, Kevin J., Turville, Chris, and Ye, Harvey
- Published
- 2019
- Full Text
- View/download PDF
3. Performance and process-based evaluation of the BARPA-R Australasian regional climate model version 1.
- Author
-
Howard, Emma, Su, Chun-Hsu, Stassen, Christian, Naha, Rajashree, Ye, Harvey, Pepler, Acacia, Bell, Samuel S., Dowdy, Andrew J., Tucker, Simon O., and Franklin, Charmaine
- Subjects
ATMOSPHERIC models ,DOWNSCALING (Climatology) ,CLIMATE change models ,EFFECT of human beings on climate change ,ATMOSPHERIC temperature ,TROPICAL cyclones - Abstract
Anthropogenic climate change is changing the Earth system processes that control the characteristics of natural hazards both globally and across Australia. Model projections of hazards under future climate change are necessary for effective adaptation. This paper presents BARPA-R (the Bureau of Meteorology Atmospheric Regional Projections for Australia), a regional climate model designed to downscale climate projections over the Australasian region with the purpose of investigating future hazards. BARPA-R, a limited-area model, has a 17 km horizontal grid spacing and makes use of the Met Office Unified Model (MetUM) atmospheric model and the Joint UK Land Environment Simulator (JULES) land surface model. To establish credibility and in compliance with the Coordinated Regional Climate Downscaling Experiment (CORDEX) experiment design, the BARPA-R framework has been used to downscale ERA5 reanalysis. Here, an assessment of this evaluation experiment is provided. Performance-based evaluation results are benchmarked against ERA5, with comparable performance between the free-running BARPA-R simulations and observationally constrained reanalysis interpreted as a good result. First, an examination of BARPA-R's representation of Australia's surface air temperature, precipitation, and 10 m winds finds good performance overall, with biases including a 1 ∘ C cold bias in daily maximum temperatures, reduced diurnal temperature range, and wet biases up to 25 mm per month in inland Australia. Recent trends in daily maximum temperatures are consistent with observational products, while trends in minimum temperatures show overestimated warming and trends in precipitation show underestimated wetting in northern Australia. Precipitation and temperature teleconnections are effectively represented in BARPA-R when present in the driving boundary conditions, while 10 m winds are improved over ERA5 in six out of eight of the Australian regions considered. Secondly, the paper considers the representation of large-scale atmospheric circulation features and weather systems. While generally well represented, convection-related features such as tropical cyclones, the South Pacific Convergence Zone (SPCZ), the Northwest Cloudband, and the monsoon westerlies show more divergence from observations and internal interannual variability than mid-latitude phenomena such as the westerly jets and extratropical cyclones. Having simulated a realistic Australasian climate, the BARPA-R framework will be used to downscale two climate change scenarios from seven CMIP6 global climate models (GCMs). [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
4. Projections of southern hemisphere tropical cyclone track density using CMIP5 models
- Author
-
Bell, Samuel S., Chand, Savin S., Tory, Kevin J., Dowdy, Andrew J., Turville, Chris, and Ye, Harvey
- Published
- 2019
- Full Text
- View/download PDF
5. Performance and process-based evaluation of the BARPA-R Australasian regional climate model version 1.
- Author
-
Howard, Emma, Chun-Hsu Su, Stassen, Christian, Naha, Rajashree, Ye, Harvey, Pepler, Acacia, Bell, Samuel S., Dowdy, Andrew J., Tucker, Simon O., and Franklin, Charmaine
- Subjects
ATMOSPHERIC models ,DOWNSCALING (Climatology) ,EFFECT of human beings on climate change ,ATMOSPHERIC temperature ,ATMOSPHERIC circulation ,TROPICAL cyclones - Abstract
Anthropogenic climate change is changing the earth system processes that control the characteristics of natural hazards both globally and across Australia. Model projections of hazards under future climate change are necessary for effective adaptation. This paper presents BARPA-R (the Bureau of Meteorology Atmospheric Regional Projections for Australia), a regional climate model designed to downscale climate projections over the Australasian region with the purpose to investigate future hazards. BARPA-R, a limited area model, has a 17 km horizontal grid-spacing and makes use of the Met Office Unified Model (MetUM) atmospheric model and the Joint UK Land Environment Simulator (JULES) land surface model. To establish credibility and in compliance with the Coordinated Regional Climate Downscaling Experiment (CORDEX) experiment design, the BARPA-R framework has been used to downscale ERA-5 reanalysis. Here, an assessment of this evaluation experiment is provided. First, an examination of BARPA-R's representation of Australia's surface air temperature, rainfall and 10-m winds finds good performance overall, with biases including a 1K cold bias in daily maximum temperatures, reduced diurnal temperature range, and wet biases up to 25 mm/month in inland Australia. Recent trends in diurnal maximum temperatures are consistent with observational products, while trends in minimum temperatures show overestimated warming and trends in rainfall show underestimated wetting in northern Australia. Rainfall and temperature teleconnections are effectively represented in BARPA-R when present in the driving boundary conditions, while 10-metre winds are improved over ERA5 in six out of eight of the Australian regions considered. The second section of the paper considers the representation of large-scale atmospheric circulation features and weather systems. While generally well represented, convection-related features such as tropical cyclones, the SPCZ, Northwest Cloud-Bands and the monsoon westerlies show more divergence from observations and internal interannual variability than mid-latitude phenomena such as the westerly jets and extra-tropical cyclones. Having simulated a realistic Australasian climate, the BARPA-R framework will be used to downscale two climate change scenarios from seven CMIP6 GCMs. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
6. Evaluating Cloud Feedbacks and Rapid Responses in the ACCESS Model.
- Author
-
Colman, Robert, Brown, Josephine R., Franklin, Charmaine, Hanson, Lawson, Ye, Harvey, and Zelinka, Mark D.
- Subjects
CLOUDS & the environment ,CLIMATE change ,GENERAL circulation model ,RADIATION & the environment ,METEOROLOGICAL precipitation - Abstract
A cloud feedback diagnostic package is implemented in the Australian Community Climate and Earth‐System Simulator General Circulation Model, based on the methodology of "cloud radiative kernels." Using separate increased sea surface temperature and CO2 experiments, both the "rapid response" cloud contribution to forcing and temperature‐mediated cloud feedbacks are analyzed. Under increased temperature and CO2 changes, temperature‐mediated cloud radiative feedback dominates over the rapid response in the final radiative response. Cloud feedback is positive in both long and short wave, with short wave dominating global values. Contributing most to this are low to mid‐level clouds, of medium‐to‐high optical thickness. As a means of illustration of the methodology, a number of key parameters related to clouds, precipitation, and convection that are typically used in "tuning" in the model are modified. These changes result in substantial impacts on the model's current climate, but only modest changes to rapid response and feedbacks occur globally, regionally, and as a function of cloud optical thickness and height. This limited set of experiments shows that cloud adjustments and feedbacks in this model are robust under these changes, lending confidence that both model climate change projections and the conclusions of attribution studies are not overly sensitive to such parameterization tuning. Of course, a considerably larger set of experiments would be needed to demonstrate that feedbacks and rapid response are robust under the wider set of tuning adjustments commonly undertaken. Plain Language Summary: A method using a combination of sea surface temperature and CO2 forced experiments and "cloud radiative kernels" is used to investigate cloud feedbacks and "rapid responses" in the Australian Community Climate and Earth‐System Simulator climate model. The methodology is demonstrated using a small set of changes to cloud parameters that are modified in a modest way as typically "tuned" in the model. These changes substantially alter the model climate but produce only small changes to cloud rapid response and feedbacks. Cloud feedback is positive in both long and short wave, with short wave responses dominating global values, predominantly from low level to midlevel clouds. Rapid responses are weaker in both long and short wave. Key Points: The approach uses "cloud radiative kernels" to investigate cloud feedbacks and "rapid responses" in the ACCESS climate modelA small set of cloud parameters are modified in a modest way as typically "tuned" in the modelThese changes significantly alter the model climate but produce only small changes to cloud rapid response and feedbacks [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.