Thickness simulation of landfast ice along Mawson Coast, East Antarctica based on a snow/ice high-resolution thermodynamic model

Landfast ice plays an important role in atmosphere‒ocean interactions and ecosystems in the near coast area of Antarctica. Understanding the characteristics and variations of landfast ice is crucial to the study of climates and field activities in Antarctic. In this study, a high-resolution thermody...

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Bibliographic Details
Published in:Advances in climate change research 2022-06, Vol.13 (3), p.375-384
Main Authors: Li, Xin-Qing, Hui, Feng-Ming, Zhao, Jie-Chen, Zhai, Meng-Xi, Cheng, Xiao
Format: Article
Language:English
Subjects:
Antarctica
HIGHTSI
Landfast ice
Modeling
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Summary:Landfast ice plays an important role in atmosphere‒ocean interactions and ecosystems in the near coast area of Antarctica. Understanding the characteristics and variations of landfast ice is crucial to the study of climates and field activities in Antarctic. In this study, a high-resolution thermodynamic snow-ice (HIGHTSI) model was applied to simulate the seasonal changes of landfast ice along the Mawson Coast, East Antarctica, through ERA-Interim reanalysis data. Four ocean heat-flux (Fw) values (10, 15, 20 and 25 W m−2) were used in sensitivity experiments. The results showed that it is reasonable to simulate landfast ice using the HIGHTSI model, and the simulation of landfast ice thickness matched best well with field measurements when Fw was 20 W m−2. Then, 2-D distributions of landfast ice from 2006 to 2018 were modeled by HIGHTSI with 2-D ERA-Interim reanalysis data in a 0.125° × 0.125° cell grid as external forcing. The results showed that fast ice was thicker along the coast and thinner near open water, and usually reaches its maximal thickness in October, varying from 1.2 to 2.0 m through the study area. There was no statistical trend for the thickness during the study period.
ISSN:1674-9278
1674-9278
DOI:10.1016/j.accre.2022.02.005