Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data

Marine phytoplankton can regulate their stoichiometric composition in response to variations in the availability of nutrients, light and the pH of seawater. Varying elemental composition of photoautotrophs affects several important ecological and biogeochemical processes, e.g., primary and export pr...

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Published in:Ecological Modelling
Main Authors: Krishna, Shubham, Pahlow, Markus, Schartau, Markus
Format: Text
Language:unknown
Published: 2019
Subjects:
Ocean acidification
Online Access:https://doi.org/10.1016/j.ecolmodel.2019.05.016
http://infoscience.epfl.ch/record/272703
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spelling ftinfoscience:oai:infoscience.epfl.ch:272703 2023-05-15T17:51:47+02:00 Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data Krishna, Shubham Pahlow, Markus Schartau, Markus 2019-11-23T01:23:34Z https://doi.org/10.1016/j.ecolmodel.2019.05.016 http://infoscience.epfl.ch/record/272703 unknown doi:10.1016/j.ecolmodel.2019.05.016 isi:000495484500019 http://infoscience.epfl.ch/record/272703 http://infoscience.epfl.ch/record/272703 Text 2019 ftinfoscience https://doi.org/10.1016/j.ecolmodel.2019.05.016 2023-02-13T22:55:37Z Marine phytoplankton can regulate their stoichiometric composition in response to variations in the availability of nutrients, light and the pH of seawater. Varying elemental composition of photoautotrophs affects several important ecological and biogeochemical processes, e.g., primary and export production, nutrient cycling, calcification, and grazing. Here we compare two plankton ecosystem models that consider regulatory mechanisms of cellular carbon and nitrogen, driving the physiological acclimation of photoautotrophs. The Carbon:Nitrogen Regulated Ecosystem Model (CN-REcoM) and the optimality-based model (OBM) differ in their representation of phytoplankton dynamics, i.e. nutrient acquisition, synthesis of chlorophyll a, and growth. All other model compartments (zooplankton, detritus, dissolved inorganic and organic matter) and processes (grazing, aggregation, remineralisation) remain identical in both models. We assess the skills of the two models against data from an ocean acidification mesocosm experiment with three CO2 treatments. Neither model accounts for any carbon dioxide (CO2) effects explicitly. Instead, we assimilate data of the different CO2 treatments separately into the models. Thereby we aim at identifying optimal model parameter values that might correlate with differences in CO2 conditions. For the OBM, optimal parameter estimates of Q(min) (subsistence N:C ratio) and V-C(0) (maximum potential photosynthesis rate of photoautotrophs) turned out to be higher for mesocosms exposed to high CO2 compared to those with low CO2 concentrations. By contrast, a similar correlation is not observed for the CN-REcoM. A possible physiological interpretation of higher estimates of Q(min), and V-C(0) according to the OBM is that phytoplankton may experience environmental stress under more acidic conditions, and hence must invest more energy/resources for maintaining basic cellular functions. Our data assimilation reveals that the parameters of the OBM are better constrained by the data than those of the ... Text Ocean acidification EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne) Ecological Modelling 411 108711
institution Open Polar
collection EPFL Infoscience (Ecole Polytechnique Fédérale Lausanne)
op_collection_id ftinfoscience
language unknown
description Marine phytoplankton can regulate their stoichiometric composition in response to variations in the availability of nutrients, light and the pH of seawater. Varying elemental composition of photoautotrophs affects several important ecological and biogeochemical processes, e.g., primary and export production, nutrient cycling, calcification, and grazing. Here we compare two plankton ecosystem models that consider regulatory mechanisms of cellular carbon and nitrogen, driving the physiological acclimation of photoautotrophs. The Carbon:Nitrogen Regulated Ecosystem Model (CN-REcoM) and the optimality-based model (OBM) differ in their representation of phytoplankton dynamics, i.e. nutrient acquisition, synthesis of chlorophyll a, and growth. All other model compartments (zooplankton, detritus, dissolved inorganic and organic matter) and processes (grazing, aggregation, remineralisation) remain identical in both models. We assess the skills of the two models against data from an ocean acidification mesocosm experiment with three CO2 treatments. Neither model accounts for any carbon dioxide (CO2) effects explicitly. Instead, we assimilate data of the different CO2 treatments separately into the models. Thereby we aim at identifying optimal model parameter values that might correlate with differences in CO2 conditions. For the OBM, optimal parameter estimates of Q(min) (subsistence N:C ratio) and V-C(0) (maximum potential photosynthesis rate of photoautotrophs) turned out to be higher for mesocosms exposed to high CO2 compared to those with low CO2 concentrations. By contrast, a similar correlation is not observed for the CN-REcoM. A possible physiological interpretation of higher estimates of Q(min), and V-C(0) according to the OBM is that phytoplankton may experience environmental stress under more acidic conditions, and hence must invest more energy/resources for maintaining basic cellular functions. Our data assimilation reveals that the parameters of the OBM are better constrained by the data than those of the ...
format Text
author Krishna, Shubham
Pahlow, Markus
Schartau, Markus
spellingShingle Krishna, Shubham
Pahlow, Markus
Schartau, Markus
Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data
author_facet Krishna, Shubham
Pahlow, Markus
Schartau, Markus
author_sort Krishna, Shubham
title Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data
title_short Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data
title_full Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data
title_fullStr Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data
title_full_unstemmed Comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data
title_sort comparison of two carbon-nitrogen regulatory models calibrated with mesocosm data
publishDate 2019
url https://doi.org/10.1016/j.ecolmodel.2019.05.016
http://infoscience.epfl.ch/record/272703
genre Ocean acidification
genre_facet Ocean acidification
op_source http://infoscience.epfl.ch/record/272703
op_relation doi:10.1016/j.ecolmodel.2019.05.016
isi:000495484500019
http://infoscience.epfl.ch/record/272703
op_doi https://doi.org/10.1016/j.ecolmodel.2019.05.016
container_title Ecological Modelling
container_volume 411
container_start_page 108711
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