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GEOCLIM reloaded (v 1.0): a new coupled earth system model for past climate change (2010)

Arndt, S. ; Regnier, P. ; Goddéris, Y. ; [et al.]

Copernicus

In: Geoscientific Model Development Discussions. 2010; 3(4): 2109-2187. Published 2010 Nov 12. doi: 10.5194/gmdd-3-2109-2010.

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Publication Date: 2010-11-12

Description: We present a new version of the coupled Earth system model GEOCLIM. The new release, GEOCLIM reloaded, links the existing atmosphere and weathering modules to a novel, temporally and spatially resolved model of the global ocean circulation, which provides a physical framework for a mechanistic description of the marine biogeochemical dynamics of carbon, nitrogen, phosphorus and oxygen. The ocean model is also coupled to a fully formulated, vertically resolved diagenetic model. GEOCLIM reloaded is thus a unique tool to investigate the short- and long-term feedbacks between climatic conditions, continental inputs, ocean biogeochemical dynamics and diagenesis. A complete and detailed description of the resulting Earth system model and its new features is first provided. The performance of GEOCLIM reloaded is then evaluated by comparing steady-state simulation under present-day conditions with a comprehensive set of oceanic data and existing global estimates of bio-element cycling in the pelagic and benthic compartments.

Print ISSN: 1991-9611

Electronic ISSN: 1991-962X

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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C-GEM (v 1.0): a new, cost-efficient biogeochemical model for estuaries and its application to a funnel-shaped system (2013)

Volta, C. ; Arndt, S. ; Savenije, H. H. G. ; [et al.]

Copernicus

In: Geoscientific Model Development Discussions. 2013; 6(4): 5645-5709. Published 2013 Nov 14. doi: 10.5194/gmdd-6-5645-2013.

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Publication Date: 2013-11-14

Description: The first part of this paper describes C-GEM (Carbon – Generic Estuary Model), a new, one-dimensional, generic reactive-transport model for the biogeochemical dynamics of carbon and associated bio-elements (N, P, Si) in estuaries. C-GEM is computationally efficient and reduces data-requirements by using an idealized representation of the estuarine geometry to quantitatively predict the dominant features of the estuarine hydrodynamics, salt transport and biogeochemistry. A protocol for the set-up of C-GEM for an estuarine system is also described. The second part of this paper presents, as a proof of concept, the application of C-GEM to the funnel-shaped Scheldt estuary (Belgium, the Netherlands), one of the best-surveyed system in the world. Steady-state and transient simulations are performed and the performance of C-GEM is evaluated through model-data and model-model comparison, using integrated measures of the estuarine biogeochemical functioning, such as system-wide estimates of the Net Ecosystem Metabolism (NEM). A sensitivity analysis is also carried out to identify model parameters that exert the most important control on biogeochemical processes and to assess the sensitivity of the NEM to uncertainties in parameter values. The paper ends by a short discussion of current model limitations with respect to local, regional and global scale applications.

Print ISSN: 1991-9611

Electronic ISSN: 1991-962X

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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