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Carbon-nitrogen feedbacks in the UVic ESCM (2012)

Wania, R. ; Meissner, K. J. ; Eby, M. ; [weitere]

Copernicus

In: Geoscientific Model Development. 2012; 5(5): 1137-1160. Published 2012 Sep 18. doi: 10.5194/gmd-5-1137-2012.

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Publikationsdatum: 2012-09-18

Beschreibung: A representation of the terrestrial nitrogen cycle is introduced into the UVic Earth System Climate Model (UVic ESCM). The UVic ESCM now contains five terrestrial carbon pools and seven terrestrial nitrogen pools: soil, litter, leaves, stem and roots for both elements and ammonium and nitrate in the soil for nitrogen. Nitrogen cycles through plant tissue, litter, soil and the mineral pools before being taken up again by the plant. Biological N2 fixation and nitrogen deposition represent external inputs to the plant-soil system while losses occur via leaching. Simulated carbon and nitrogen pools and fluxes are in the range of other models and observations. Gross primary production (GPP) for the 1990s in the CN-coupled version is 129.6 Pg C a−1 and net C uptake is 0.83 Pg C a−1, whereas the C-only version results in a GPP of 133.1 Pg C a−1 and a net C uptake of 1.57 Pg C a−1. At the end of a transient experiment for the years 1800–1999, where radiative forcing is held constant but CO2 fertilisation for vegetation is permitted to occur, the CN-coupled version shows an enhanced net C uptake of 1.05 Pg C a−1, whereas in the experiment where CO2 is held constant and temperature is transient the land turns into a C source of 0.60 Pg C a−1 by the 1990s. The arithmetic sum of the temperature and CO2 effects is 0.45 Pg C a−1, 0.38 Pg C a−1 lower than seen in the fully forced model, suggesting a strong nonlinearity in the CN-coupled version. Anthropogenic N deposition has a positive effect on Net Ecosystem Production of 0.35 Pg C a−1. Overall, the UVic CN-coupled version shows similar characteristics to other CN-coupled Earth System Models, as measured by net C balance and sensitivity to changes in climate, CO2 and temperature.

Print ISSN: 1991-959X

Digitale ISSN: 1991-9603

Thema: Geologie und Paläontologie

Publiziert von Copernicus im Namen von European Geosciences Union.

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The combined impact of CO2-dependent parameterisations of Redfield and Rain ratios on ocean carbonate saturation (2011)

Kvale, K. F. ; Meissner, K. J. ; d'Orgeville, M. ; [weitere]

Copernicus

In: Biogeosciences Discussions. 2011; 8(3): 6265-6280. Published 2011 Jun 30. doi: 10.5194/bgd-8-6265-2011.

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Publikationsdatum: 2011-06-30

Beschreibung: Future changes to the organic carbon and carbonate pumps are likely to affect ocean ecosystem dynamics and the biogeochemical climate. Here, biological dependencies on the Rain and Redfield ratios on pCO2 are implemented in a coupled Biogeochemistry-Ocean Model, the CSIRO-Mk3L, to establish extreme-case carbonate saturation vulnerability to model parameterisation at year 2500 using IPCC Representative Concentration Pathway 8.5. Surface carbonate saturation is relatively insensitive to the combined effects of variable Rain and Redfield ratios (an anomaly of less than 10 % of the corresponding change in the control configuration by year 2500), but the global zonally-averaged ocean interior anomaly due to these feedbacks is up to 130 % by 2500. A non-linear interaction between organic and carbonate pumps is found in export production, where higher rates of photosynthesis enhance calcification by raising surface alkalinity. This non-linear effect has a negligible influence on surface carbonate saturation but does significantly influence ocean interior carbonate saturation fields (an anomaly of up to 45 % in 2500). The strongest linear and non-linear sensitivity to combined feedbacks occurs in low-latitude remineralisation zones below regions of enhanced biological production, where dissolved inorganic carbon rapidly accumulates.

Print ISSN: 1810-6277

Digitale ISSN: 1810-6285

Thema: Biologie , Geologie und Paläontologie

Publiziert von Copernicus im Namen von European Geosciences Union.

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Explicit planktic calcifiers in the University of Victoria Earth System Climate Model (2014)

Kvale, K. F. ; Meissner, K. J. ; Keller, D. P. ; [weitere]

Copernicus

In: Geoscientific Model Development Discussions. 2014; 7(2): 1709-1758. Published 2014 Mar 14. doi: 10.5194/gmdd-7-1709-2014.

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Publikationsdatum: 2014-03-14

Beschreibung: Marine calcifiers as a plankton functional type (PFT) are a crucial part of the global carbon cycle, being responsible for much of the carbon export to the deep ocean entering via biological pathways. Deep ocean carbon export through calcifiers is controlled by physiological, ecological and biogeochemical factors. This paper describes the implementation of a phytoplankton coccolithophore PFT in the University of Victoria Earth System Climate Model (UVic ESCM), and improvements to the representation of zooplankton calcification and carbon export therein. The described modifications improve model performance with respect to carbon and nutrient fluxes. Primary production, export production, particulate organic carbon and calcite fluxes all fall within independent estimates.

Print ISSN: 1991-9611

Digitale ISSN: 1991-962X

Thema: Geologie und Paläontologie

Publiziert von Copernicus im Namen von European Geosciences Union.

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Carbon-nitrogen feedbacks in the UVic ESCM (2012)

Wania, R. ; Meissner, K. J. ; Eby, M. ; [weitere]

Copernicus

In: Geoscientific Model Development Discussions. 2012; 5(1): 67-118. Published 2012 Jan 10. doi: 10.5194/gmdd-5-67-2012.

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Publikationsdatum: 2012-01-10

Beschreibung: A representation of the terrestrial nitrogen cycle is introduced into the UVic Earth System Climate Model (UVic ESCM). The UVic ESCM now contains five terrestrial carbon pools and seven terrestrial nitrogen pools: soil, litter, leaves, stem and roots for both elements and ammonium and nitrate in the soil for nitrogen. Nitrogen cycles through plant tissue, litter, soil and the mineral pools before being taken up again by the plant. Biological N2 fixation and nitrogen deposition represent the external input and loss from the plant-soil system can occur via leaching. Simulated carbon and nitrogen pools and fluxes are in the range of other models and data. Gross primary production (GPP) for the 1990s in the CN-coupled version is 129.6 Pg C a−1 and net C uptake is 0.83 Pg C a−1, whereas the C-only version results in a GPP of 133.1 Pg C a−1 and a net C uptake of 1.57 Pg C a−1. At the end of a transient experiment for the years 1800–2000, where temperature is held constant but CO2 fertilisation for vegetation is allowed to happen, the CN-coupled version shows an enhanced net C uptake of 1.05 Pg C a−1, whereas in the experiment where CO2 is held constant and temperature is transient the land turns into a C source of 0.60 Pg C a−1 by the 1990s. The arithmetic sum of the temperature and CO2 effects results in 0.45 Pg C a−1, which is 0.38 Pg C a−1 lower than seen in the fully forced model, suggesting a strong non-linearity in the CN-coupled version. Anthropogenic N deposition has a positive effect on Net Ecosystem Production of 0.35 Pg C a−1. Overall, the UVic CN-coupled version shows similar characteristics in terms of C and N pools and fluxes to other CN-coupled Earth System Models.

Print ISSN: 1991-9611

Digitale ISSN: 1991-962X

Thema: Geologie und Paläontologie

Publiziert von Copernicus im Namen von European Geosciences Union.

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Modelling oxygen isotopes in the University of Victoria Earth System Climate Model (2011)

Brennan, C. E. ; Weaver, A. J. ; Eby, M. ; [weitere]

Copernicus

In: Geoscientific Model Development Discussions. 2011; 4(3): 2545-2576. Published 2011 Sep 28. doi: 10.5194/gmdd-4-2545-2011.

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Publikationsdatum: 2011-09-28

Beschreibung: Implementing oxygen isotopes (H218O, H216O) in coupled climate models provides both an important test of the individual model's hydrological cycle, and a powerful tool to mechanistically explore past climate changes while producing results directly comparable to isotope proxy records. Here we describe the addition of oxygen isotopes in the University of Victoria Earth System Climate Model (UVic ESCM). Equilibrium simulations are performed for preindustrial and Last Glacial Maximum conditions. The oxygen isotope content in the model preindustrial climate is compared against observations for precipitation and seawater. The distribution of oxygen isotopes during the LGM is compared against available paleo-reconstructions.

Print ISSN: 1991-9611

Digitale ISSN: 1991-962X

Thema: Geologie und Paläontologie

Publiziert von Copernicus im Namen von European Geosciences Union.

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