Evaluation of nonidentical versus identical twin approaches for observation impact assessments: an ensemble-Kalman-filter-based ocean assimilation application for the Gulf of Mexico

Assessments of ocean data assimilation (DA) systems and observing system design experiments typically rely on identical or nonidentical twin experiments. The identical twin approach has been recognized as yielding biased impact assessments in atmospheric predictions, but these shortcomings are not s...

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Bibliographic Details
Published in:Ocean science 2019-12, Vol.15 (6), p.1801-1814
Main Authors: Yu, Liuqian, Fennel, Katja, Wang, Bin, Laurent, Arnaud, Thompson, Keith R, Shay, Lynn K
Format: Article
Language:English
Subjects:
Assessments
Criminal investigation
Data assimilation
Data collection
Growth rate
Impact assessment
Investment
Investments
Kalman filters
Oceans
Profilers
Profiles
Salinity
Salinity profiles
Sea surface
Sea surface temperature
Surface temperature
Systems design
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Summary:Assessments of ocean data assimilation (DA) systems and observing system design experiments typically rely on identical or nonidentical twin experiments. The identical twin approach has been recognized as yielding biased impact assessments in atmospheric predictions, but these shortcomings are not sufficiently appreciated for oceanic DA applications. Here we present the first direct comparison of the nonidentical and identical twin approaches in an ocean DA application. We assess the assimilation impact for both approaches in a DA system for the Gulf of Mexico that uses the ensemble Kalman filter. Our comparisons show that, despite a reasonable error growth rate in both approaches, the identical twin produces a biased skill assessment, overestimating the improvement from assimilating sea surface height and sea surface temperature observations while underestimating the value of assimilating temperature and salinity profiles. Such biases can lead to an undervaluation of some observing assets (in this case profilers) and thus a misguided distribution of observing system investments.
ISSN:1812-0792
1812-0784
1812-0792
DOI:10.5194/os-15-1801-2019