Combining sea-ice and ocean data assimilation with nudging atmospheric circulation in the AWI Coupled Prediction System


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Svetlana.Losa [ at ] awi.de

Abstract

<jats:p>Assimilation of sea ice and ocean observational data into coupled sea-ice, ocean and atmosphere models is known as an efficient approach for providing a reliable sea-ice prediction (Mu et al. 2022). However, implementations of the data assimilation in the coupled systems still remain a challenge. This challenge is partly originated from the chaoticity possessed in the atmospheric module, which leads to biases and, therefore, to divergence of predictive characteristics. An additional constrain of the atmosphere is proposed as a tool to tackle the aforementioned problem. To test this approach, we use the recently developed AWI Coupled Prediction System (AWI-CPS). The system is built upon the AWI climate model AWI-CM-3 (Streffing et al. 2022) that includes FESOM2.0 as a sea-ice ocean component and the Integrated Forecasting System (OpenIFS) as an atmospheric component. An Ensemble-type Kalman filter within the Parallel Data Assimilation Framework (PDAF; Nerger and Hiller, 2013) is used to assimilate sea ice concentration, sea ice thickness, sea ice drift, sea surface height, sea surface temperature and salinity, as well as temperature and salinity vertical profiles. The additional constrain of the atmosphere is introduced by relaxing, or &amp;#8220;nudging&amp;#8221;, the AWI-CPS large-scale atmospheric dynamics to the ERA5 reanalysis data. This nudging of the large scale atmospheric circulation towards reanalysis has allowed to reduce biases in the atmospheric state, and, therefore, to reduce the analysis increments. The most prominent improvement has been achieved for the predicted sea ice drift. Comprehensive analyses will be presented based upon the new system&amp;#8217;s performance over the time period 2003 &amp;#8211; 2022.Mu, L., Nerger, L., Streffing, J., Tang, Q., Niraula, B., Zampieri, L., Loza, S. N. and H. F. Goessling, Sea-ice forecasts with an upgraded AWI Coupled Prediction System (Journal of Advances in Modeling Earth Systems, 14, e2022MS003176. doi: 10.1029/2022MS003176.Nerger, L. and Hiller, W., 2013. Software for ensemble-based data assimilation systems&amp;#8212;Implementation strategies and scalability. Computers &amp; Geosciences, 55, pp.110-118.Streffing, J., Sidorenko, D., Semmler, T., Zampieri, L., Scholz, P., Andr&amp;#233;s-Mart&amp;#237;nez, M., Koldunov, N., Rackow, T., Kjellsson, J., Goessling, H., Athanase, M., Wang, Q., Sein, D., Mu, L., Fladrich, U., Barbi, D., Gierz, P., Danilov, S.,&amp;#160; Juricke, S., Lohmann, G. and Jung, T. (2022) AWI-CM3 coupled climate model: Description and evaluation experiments for a prototype post-CMIP6 model, EGUsphere, 2022, 1&amp;#8212;37, doi: 10.5194/egusphere-2022-32</jats:p>



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Published
Eprint ID
59012
DOI 10.5194/egusphere-egu23-14227

Cite as
Losa, S. N. , Mu, L. , Athanase, M. , Streffing, J. , Andrés-Martínez, M. , Nerger, L. , Semmler, T. , Sidorenko, D. and Goessling, H. F. (2023): Combining sea-ice and ocean data assimilation with nudging atmospheric circulation in the AWI Coupled Prediction System , [Other] doi: 10.5194/egusphere-egu23-14227


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