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Towards an assessment of simple global marine biogeochemical models of different complexity (2010)

Kriest, Iris ; Khatiwala, S. ; Oschlies, Andreas

Elsevier

In: Progress in Oceanography, 86 (3-4). pp. 337-360.

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Publication Date: 2019-09-23

Description: We present a suite of experiments with a hierarchy of biogeochemical models of increasing complexity coupled to an offline global ocean circulation model based on the “transport matrix method”. Biogeochemical model structures range from simple nutrient models to more complex nutrient-phytoplankton–zooplankton-detritus-DOP models. The models’ skill is assessed by various misfit functions with respect to observed phosphate and oxygen distributions. While there is generally good agreement between the different metrics employed, an exception is a cost function based on the relative model-data misfit. We show that alterations in parameters and/or structure of the models – especially those that change particle export or remineralization profile – affect subsurface and mesopelagic phosphate and oxygen, particularly in the upwelling regions. Visual inspection of simulated biogeochemical tracer distributions as well as the evaluation of different cost functions suggest that increasing complexity of untuned, unoptimized models, simulated with parameters commonly used in large-scale model studies does not necessarily improve performance. Instead, variations in individual model parameters may be of equal, if not greater, importance.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.pocean.2010.05.002

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Numerical effects on organic-matter sedimentation and remineralization in biogeochemical ocean models (2011)

Kriest, Iris ; Oschlies, Andreas

Elsevier

In: Ocean Modelling, 39 (3-4). pp. 275-283.

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Publication Date: 2019-09-23

Description: We investigate the effects of different vertical grid resolutions and algorithms for the calculation of particle sinking on the sedimentation and remineralization of particulate organic matter. Simulations carried out with an idealized 1D model of detritus sinking show that a coarse vertical resolution, such as used in many global biogeochemical models, tends to enhance the particle flux through numerical mixing within the vertical boxes, and thereby simulates deeper remineralization, compared to a model with a fine vertical resolution. This effect can be ameliorated by assuming a distribution of detritus within the individual grid boxes that corresponds to the prescribed sinking and remineralization parameters. Experiments of the different flux algorithms, carried out with 3D global biogeochemical models of different vertical grid resolution reveal impacts on simulated biogeochemical tracer distributions that are similar to those obtained by substantial variations in biogeochemical model parameters. Our results indicate that numerical schemes have to be considered when comparing biogeochemical parameter values of different models and also when porting biogeochemical models among different circulation models.

Type: Article , PeerReviewed

Format: text

DOI: 10.1016/j.ocemod.2011.05.001

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