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Using shortened spin‐ups to speed up ocean biogeochemical model optimization

Using shortened spin‐ups to speed up ocean biogeochemical model optimization
Using shortened spin‐ups to speed up ocean biogeochemical model optimization
The performance of global ocean biogeochemical models can be quantified as the misfit between modeled tracer distributions and observations, which is sought to be minimized during parameter optimization. These models are computationally expensive due to the long spin‐up time required to reach equilibrium, and therefore optimization is often laborious. To reduce the required computational time, we investigate whether optimization of a biogeochemical model with shorter spin‐ups provides the same optimized parameters as one with a full‐length, equilibrated spin‐up over several millennia. We use the global ocean biogeochemical model MOPS with a range of lengths of model spin‐up and calibrate the model against synthetic observations derived from previous model runs using a derivative‐free optimization algorithm (DFO‐LS). When initiating the biogeochemical model with tracer distributions that differ from the synthetic observations used for calibration, a minimum spin‐up length of 2,000 years was required for successful optimization due to certain parameters which influence the transport of matter from the surface to the deeper ocean, where timescales are longer. However, preliminary results indicate that successful optimization may occur with an even shorter spin‐up by a judicious choice of initial condition, here the synthetic observations used for calibration, suggesting a fruitful avenue for future research.
1942-2466
Oliver, S.
c7858bb0-a3f6-4b17-9c80-fd0fbcb3a9e5
Khatiwala, S.
8433ac03-9c18-42bc-81d9-53e8becc8c4f
Cartis, C.
3461d8e5-d5e5-4252-ac63-f17f1b4036e5
Ward, Ben
9063af30-e344-4626-9470-8db7c1543d05
Kriest, Iris
74cf835f-c26c-4082-8073-8991bc19d21b
Oliver, S.
c7858bb0-a3f6-4b17-9c80-fd0fbcb3a9e5
Khatiwala, S.
8433ac03-9c18-42bc-81d9-53e8becc8c4f
Cartis, C.
3461d8e5-d5e5-4252-ac63-f17f1b4036e5
Ward, Ben
9063af30-e344-4626-9470-8db7c1543d05
Kriest, Iris
74cf835f-c26c-4082-8073-8991bc19d21b

Oliver, S., Khatiwala, S., Cartis, C., Ward, Ben and Kriest, Iris (2024) Using shortened spin‐ups to speed up ocean biogeochemical model optimization. Journal of Advances in Modeling Earth Systems, 16 (9), [e2023MS003941]. (doi:10.1029/2023ms003941).

Record type: Article

Abstract

The performance of global ocean biogeochemical models can be quantified as the misfit between modeled tracer distributions and observations, which is sought to be minimized during parameter optimization. These models are computationally expensive due to the long spin‐up time required to reach equilibrium, and therefore optimization is often laborious. To reduce the required computational time, we investigate whether optimization of a biogeochemical model with shorter spin‐ups provides the same optimized parameters as one with a full‐length, equilibrated spin‐up over several millennia. We use the global ocean biogeochemical model MOPS with a range of lengths of model spin‐up and calibrate the model against synthetic observations derived from previous model runs using a derivative‐free optimization algorithm (DFO‐LS). When initiating the biogeochemical model with tracer distributions that differ from the synthetic observations used for calibration, a minimum spin‐up length of 2,000 years was required for successful optimization due to certain parameters which influence the transport of matter from the surface to the deeper ocean, where timescales are longer. However, preliminary results indicate that successful optimization may occur with an even shorter spin‐up by a judicious choice of initial condition, here the synthetic observations used for calibration, suggesting a fruitful avenue for future research.

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J Adv Model Earth Syst - 2024 - Oliver - Using Shortened Spin‐Ups to Speed Up Ocean Biogeochemical Model Optimization - Version of Record
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Accepted/In Press date: 12 August 2024
Published date: 10 September 2024

Identifiers

Local EPrints ID: 498420
URI: http://eprints.soton.ac.uk/id/eprint/498420
DOI: doi:10.1029/2023ms003941
ISSN: 1942-2466
PURE UUID: a74df2f7-c518-4492-bdec-43e667c39e7d
ORCID for Ben Ward: ORCID iD orcid.org/0000-0003-1290-8270

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Date deposited: 18 Feb 2025 17:36
Last modified: 22 Aug 2025 02:24

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Contributors

Author: S. Oliver
Author: S. Khatiwala
Author: C. Cartis
Author: Ben Ward ORCID iD
Author: Iris Kriest

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