Articles | Volume 16, issue 9
https://doi.org/10.5194/tc-16-3815-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/tc-16-3815-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Research article
| 
23 Sep 2022
Research article |
| 23 Sep 2022
| 23 Sep 2022
Variability in Antarctic surface climatology across regional climate models and reanalysis datasets
Department of Mathematics and Statistics, Lancaster University, Lancaster, United Kingdom
Amber Leeson
Lancaster Environment Centre, Lancaster University, Lancaster, United Kingdom
Andrew Orr
British Antarctic Survey, High Cross, Madingley Road, Cambridge, United Kingdom
Christoph Kittel
Laboratory of Climatology, Department of Geography, SPHERES, University of Liège, Liège, Belgium
J. Melchior van Wessem
Institute for Marine and Atmospheric research Utrecht, Utrecht University, Utrecht, the Netherlands
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Cited
14 citations as recorded by crossref.
- Characteristics of the 1979–2020 Antarctic firn layer simulated with IMAU-FDM v1.2A S. Veldhuijsen et al. 10.5194/tc-17-1675-2023
- Drivers of anomalous surface melting over Ingrid Christensen Coast, East Antarctica E. Gayathri & C. Laluraj 10.1016/j.polar.2024.101069
- The importance of cloud properties when assessing surface melting in an offline-coupled firn model over Ross Ice shelf, West Antarctica N. Hansen et al. 10.5194/tc-18-2897-2024
- Surface Broadband Radiation Data from a Bipolar Perspective: Assessing Climate Change Through Machine Learning A. Cavaliere et al. 10.3390/cli13070147
- Change at 85 degrees south: Shackleton Glacier region proglacial lakes from 1960 to 2020 M. Diaz et al. 10.1017/aog.2023.27
- RECENT TRENDS IN NEAR-SURFACE AIR TEMPERATURE IN ANTARCTICA FROM REANALYSYS AND STATION DATA P. Romanov & N. Romanova 10.29006/1564-2291.JOR-2023.51(3).4
- Changing Water Cycle under a Warming Climate: Tendencies in the Carpathian Basin I. Jánosi et al. 10.3390/cli11060118
- Central South Pacific bottom water response to thermohaline circulation crisis during the Middle Pleistocene Transition N. Mahanta et al. 10.1016/j.quascirev.2025.109344
- Uncertainties originating from GCM downscaling and bias correction with application to the MIS-11c Greenland Ice Sheet B. Crow et al. 10.5194/cp-20-281-2024
- Firn air content changes on Antarctic ice shelves under three future warming scenarios S. Veldhuijsen et al. 10.5194/tc-18-1983-2024
- Contrasting current and future surface melt rates on the ice sheets of Greenland and Antarctica: Lessons from in situ observations and climate models M. van den Broeke et al. 10.1371/journal.pclm.0000203
- Bayesian hierarchical model for bias-correcting climate models J. Carter et al. 10.5194/gmd-17-5733-2024
- A Smart Post-Processing System for Forecasting the Climate Precipitation Based on Machine Learning Computations A. Ghazikhani et al. 10.3390/su14116624
- Variability in Antarctic surface climatology across regional climate models and reanalysis datasets J. Carter et al. 10.5194/tc-16-3815-2022
12 citations as recorded by crossref.
- Characteristics of the 1979–2020 Antarctic firn layer simulated with IMAU-FDM v1.2A S. Veldhuijsen et al. 10.5194/tc-17-1675-2023
- Drivers of anomalous surface melting over Ingrid Christensen Coast, East Antarctica E. Gayathri & C. Laluraj 10.1016/j.polar.2024.101069
- The importance of cloud properties when assessing surface melting in an offline-coupled firn model over Ross Ice shelf, West Antarctica N. Hansen et al. 10.5194/tc-18-2897-2024
- Surface Broadband Radiation Data from a Bipolar Perspective: Assessing Climate Change Through Machine Learning A. Cavaliere et al. 10.3390/cli13070147
- Change at 85 degrees south: Shackleton Glacier region proglacial lakes from 1960 to 2020 M. Diaz et al. 10.1017/aog.2023.27
- RECENT TRENDS IN NEAR-SURFACE AIR TEMPERATURE IN ANTARCTICA FROM REANALYSYS AND STATION DATA P. Romanov & N. Romanova 10.29006/1564-2291.JOR-2023.51(3).4
- Changing Water Cycle under a Warming Climate: Tendencies in the Carpathian Basin I. Jánosi et al. 10.3390/cli11060118
- Central South Pacific bottom water response to thermohaline circulation crisis during the Middle Pleistocene Transition N. Mahanta et al. 10.1016/j.quascirev.2025.109344
- Uncertainties originating from GCM downscaling and bias correction with application to the MIS-11c Greenland Ice Sheet B. Crow et al. 10.5194/cp-20-281-2024
- Firn air content changes on Antarctic ice shelves under three future warming scenarios S. Veldhuijsen et al. 10.5194/tc-18-1983-2024
- Contrasting current and future surface melt rates on the ice sheets of Greenland and Antarctica: Lessons from in situ observations and climate models M. van den Broeke et al. 10.1371/journal.pclm.0000203
- Bayesian hierarchical model for bias-correcting climate models J. Carter et al. 10.5194/gmd-17-5733-2024
2 citations as recorded by crossref.
Latest update: 08 Aug 2025
Short summary
Climate models provide valuable information for studying processes such as the collapse of ice shelves over Antarctica which impact estimates of sea level rise. This paper examines variability across climate simulations over Antarctica for fields including snowfall, temperature and melt. Significant systematic differences between outputs are found, occurring at both large and fine spatial scales across Antarctica. Results are important for future impact assessments and model development.
Climate models provide valuable information for studying processes such as the collapse of ice...
