This paper presents a global ocean implementation of a multi-component model of marine pelagic biogeochemistry coupled on-line with an ocean general circulation model forced with climatological surface fields (PELAgic biogeochemistry for Global Ocean Simulations, PELAGOS). The final objective is the inclusion of this model as a component in an Earth System model for climate studies. The pelagic model is based on a functional stoichiometric representation of marine biogeochemical cycles and allows simulating the dynamics of C, N, P, Si, O and Fe taking into account the variation of their elemental ratios in the functional groups. The model also includes a parameterization of variable chlorophyll:carbon ratio in phytoplankton, carrying chl as a...
Global Ocean Biogeochemistry General Circulation Models are useful tools to study biogeochemical pro...
In coupled biogeochmical–ocean models, the choice of numerical schemes in the ocean circulation comp...
Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of Am...
This paper presents a global ocean implementation of a multi-component model of marine pelagic bioge...
This paper presents a global ocean implementation of a multi-component model of marine pelagic bioge...
This paper presents a global ocean implementation of a multi-component model of marine pelagic bioge...
The set of equations for global ocean biogeochemistry deterministic models have been for-mulated in ...
Coupled ocean-biogeochemical models simulate the ocean circulation in combination with a biogeochemi...
Abstract Simulation of coupled carbon‐climate requires representation of ocean carbon cycling, but t...
The earliest marine ecosystem models consisted of a simple representation of the main features of ma...
In coupled biogeochmical–ocean models, the choice of numerical schemes in the ocean circulation comp...
A state-of-the-art complex marine ecosystem model, PlankTOM5.2, simulating the distribution of five ...
The primary objective of this research is to investigate phytoplankton community response to variati...
Ecosystem processes are important determinants of the biogeochemistry of the ocean, and they can be ...
The primary objective of this research is to investigate phytoplankton community response to variati...
Global Ocean Biogeochemistry General Circulation Models are useful tools to study biogeochemical pro...
In coupled biogeochmical–ocean models, the choice of numerical schemes in the ocean circulation comp...
Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of Am...
This paper presents a global ocean implementation of a multi-component model of marine pelagic bioge...
This paper presents a global ocean implementation of a multi-component model of marine pelagic bioge...
This paper presents a global ocean implementation of a multi-component model of marine pelagic bioge...
The set of equations for global ocean biogeochemistry deterministic models have been for-mulated in ...
Coupled ocean-biogeochemical models simulate the ocean circulation in combination with a biogeochemi...
Abstract Simulation of coupled carbon‐climate requires representation of ocean carbon cycling, but t...
The earliest marine ecosystem models consisted of a simple representation of the main features of ma...
In coupled biogeochmical–ocean models, the choice of numerical schemes in the ocean circulation comp...
A state-of-the-art complex marine ecosystem model, PlankTOM5.2, simulating the distribution of five ...
The primary objective of this research is to investigate phytoplankton community response to variati...
Ecosystem processes are important determinants of the biogeochemistry of the ocean, and they can be ...
The primary objective of this research is to investigate phytoplankton community response to variati...
Global Ocean Biogeochemistry General Circulation Models are useful tools to study biogeochemical pro...
In coupled biogeochmical–ocean models, the choice of numerical schemes in the ocean circulation comp...
Author Posting. © American Geophysical Union, 2004. This article is posted here by permission of Am...