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Nadine Goris

Guest Researcher
Bjerknes Centre for Climate Research
  • E-mailnadine.goris@uib.no
  • Visitor Address
    Geofysisk Institutt, Allegaten 70
    Bergen
    Room 
    314
  • Postal Address
    Postboks 7803
    5020 Bergen

Chemical oceanography

Carbon cycle modelling

Academic article
  • Show author(s) (2022). Stratification constrains future heat and carbon uptake in the Southern Ocean between 30°S and 55°S. Nature Communications.
  • Show author(s) (2022). Possibility for strong northern hemisphere high-latitude cooling under negative emissions. Nature Communications.
  • Show author(s) (2022). Observation-based Sea surface temperature trends in Atlantic large marine ecosystems. Progress in Oceanography.
  • Show author(s) (2022). Acidification of the Nordic Seas. Biogeosciences. 979-1012.
  • Show author(s) (2022). A scalable, black-box hybrid genetic algorithm for continuous multimodal optimization in moderate dimensions . Nordic Machine Intelligence (NMI). 16-27.
  • Show author(s) (2020). Ocean biogeochemistry in the Norwegian Earth System Model version 2 (NorESM2). Geoscientific Model Development. 2393-2431.
  • Show author(s) (2018). Mechanisms and early detections of multidecadal oxygen changes in the interior subpolar North Atlantic. Geophysical Research Letters. 4218-4229.
  • Show author(s) (2018). Constraining Projection-Based Estimates of the Future North Atlantic Carbon Uptake. Journal of Climate. 3959-3978.
  • Show author(s) (2017). Amplification of global warming through pH dependence of DMS production simulated with a fully coupled Earth system model. Biogeosciences. 3633-3648.
  • Show author(s) (2016). Evaluation of NorESM-OC (versions 1 and 1.2), the ocean carbon-cycle stand-alone configuration of the Norwegian Earth System Model (NorESM1). Geoscientific Model Development. 2589-2622.
  • Show author(s) (2015). Singular vector-based targeted observations of chemical constituents: description and first application of the EURAD-IM-SVA v1.0. Geoscientific Model Development. 3929-3945.
  • Show author(s) (2015). Responses of carbon uptake and oceanic pCO2 to climate change in the North Atlantic: A model study with the Bergen Earth System Model. Global Biogeochemical Cycles. 1567-1583.
  • Show author(s) (2013). Singular vector decomposition for sensitivity analyses of tropospheric chemical scenarios. Atmospheric Chemistry and Physics (ACP). 5063-5087.
Report
  • Show author(s) (2022). Trender i havforsuring og antropogent karbon i de nordiske hav, Nordsjøen og Skagerrak. .
  • Show author(s) (2019). Modelling of extreme currents along the planned bridge in Bjørnafjorden. Part II: the importance of mixing schemes . .
  • Show author(s) (2018). Modelling of extreme currents along the planned bridge in Bjørnafjorden. .
  • Show author(s) (2017). Report of the Workshop on Potential Impacts of Climate Change on Atlantic Salmon Stock Dynamics (WKCCISAL). .
Lecture
  • Show author(s) (2022). Emit now, mitigate later? - A biogeochemical perspective.
  • Show author(s) (2022). Contemporary stratification constrains future anthropogenic carbon and excess heat uptake in the northern limb of the Southern Ocean.
  • Show author(s) (2021). Low and overshoot emission scenarios – from a high to a low carbon society (LOES).
  • Show author(s) (2014). Quantifying the climate-driven processes leading to a reduced CO2 uptake in the North Atlantic: A model study with the Bergen Climate Model.
  • Show author(s) (2014). Mechanism and detectability of basin scale interannual surface pCO2 in North Atlantic and North Pacific.
Popular scientific lecture
  • Show author(s) (2020). Understanding Climate Change: Where can Machine Learning help?
Academic lecture
  • Show author(s) (2022). Possibility for strong northern hemisphere high-latitude cooling under zero and negative emissions.
  • Show author(s) (2022). Gulf Stream and Deep Western Boundary Currents are key to constrain the future North Atlantic Carbon Uptake.
  • Show author(s) (2022). Emit now, mitigate later? Simulating the Earth system response to zero and negative emissions.
  • Show author(s) (2022). Detecting ecosystem-relevant crossings of thresholds.
  • Show author(s) (2022). Constraining the large spread in ocean carbon sinks in ESMs.
  • Show author(s) (2022). Anthropogenic ocean acidification below the surface: does organic matter cycling result in enhanced vulnerability?
  • Show author(s) (2021). Efficient carbon drawdown allows for a high future carbon uptake in the North Atlantic.
  • Show author(s) (2021). Application of a genetic algorithm to locally optimize emergent constraints of the future North Atlantic Carbon Uptake.
  • Show author(s) (2021). Anthropogenic ocean acidification below the surface: does organic matter cycling result in enhanced vulnerability?
  • Show author(s) (2020). Strength and reversibility of the ocean carbon sink under negative emissions.
  • Show author(s) (2020). On the Potential of the Southern Ocean Biological Pump to Maintain the Ocean Carbon Sink under Negative Emissions .
  • Show author(s) (2019). Applying genetic algorithms to constrain the spread in ESM projections.
  • Show author(s) (2019). Application of genetic algorithm to locally optimize emergent constraints of the future North Atlantic carbon uptake.
  • Show author(s) (2018). Observations-constrained projections reveal early and strong deoxygenation in the interior North Atlantic.
  • Show author(s) (2018). Early detection of anthropogenic climate change signal in the interior subpolar North Atlantic oxygen.
  • Show author(s) (2018). Early detection of anthropogenic climate change signal in the interior subpolar North Atlantic.
  • Show author(s) (2018). Columbia Toppforsk project Kick-off meeting.
  • Show author(s) (2017). Low and overshoot emission scenarios – from a high to a low carbon society (LOES).
  • Show author(s) (2017). Introduction to climate modelling and the future of the Atlantic climate.
  • Show author(s) (2017). Emerging climate change signals in the interior ocean oxygen content.
  • Show author(s) (2017). Amplification of global warming through pH-dependence of DMS-production.
  • Show author(s) (2016). The role of the Southern Ocean in Earth system modelling.
  • Show author(s) (2016). NorESM2 - ocean updates for CMIP6.
  • Show author(s) (2016). Mechanisms and detectability of oxygen depletion in the North Atlantic.
  • Show author(s) (2016). From CMIP5 to CMIP6: New developments for the ocean biogeochemistry module of NorESM.
  • Show author(s) (2016). EVA WP 2: Coupling of DMS emissions - first results.
  • Show author(s) (2013). North Atlantic variability of oceanic CO2 uptake in response to simulated past, present and future climate change.
Popular scientific article
  • Show author(s) (2015). Havforsuring truer næringskjeden. 2grader C. 14-15.
Poster
  • Show author(s) (2022). Stratification constrains future anthropogenic carbon and excess heat uptake in the Southern Ocean.
  • Show author(s) (2022). Earth system response to idealized temperature overshoot scenarios.
  • Show author(s) (2022). Detection of abrupt shifts in the metabolic index in NorESM2.
  • Show author(s) (2021). Constraining anthropogenic carbon and excess heat uptake in climate projections.
  • Show author(s) (2020). Importance of the biological pump for reducing uncertainties in future carbon uptake projections.
  • Show author(s) (2019). Using machine learning to assess how climate change alters ocean biogeochemical provinces – preliminary results.
  • Show author(s) (2019). Can we use open ocean biomes as an integrated measure for future physio-biogeochemical change? .
  • Show author(s) (2019). Asymmetry in air-sea CO2 fluxes during rapid warming and rapid cooling scenarios.
  • Show author(s) (2019). Application of a Big Data approach to constrain projection-based estimates of the future North Atlantic Carbon Uptake.
  • Show author(s) (2017). The subpolar gyre region as benchmark for the future anthropogenic carbon budget of the North Atlantic.
  • Show author(s) (2016). Reducing Uncertainties in Anthropogenic Carbon Budget Projections for the Subpolar North Atlantic.
  • Show author(s) (2016). Deep ocean carbon sequestration and estimates of the ocean carbon sink.
  • Show author(s) (2015). Using modes of natural variability to identify uncertainties of CMIP5 predictions in the Subpolar North Atlantic.
  • Show author(s) (2015). The effect of climate change on the biogeochemistry of the North Atlantic: A study with the Bergen Climate Model.
  • Show author(s) (2015). The Carbon uptake sensitivity of the North Atlantic to climate change: A model study with the Bergen Climate Model.
  • Show author(s) (2015). Sub-­regional responses of carbon uptake and oceanic pCO2 to climate change in the North Atlantic: A model study with the Bergen Earth System Model.
  • Show author(s) (2015). Sensitivity and regional change of future biological carbon pump to POC flux parameterization.
  • Show author(s) (2015). Performance of CMIP5 models in the Subpolar North Atlantic: Using historical and control simulations to identify uncertainties in the prediction of key climate properties.
  • Show author(s) (2014). Modelling and assessing climate change impacts on the CO2 uptake of the North Atlantic.
  • Show author(s) (2013). Simulated and observed trends in key variables of the Arctic marine carbon cycle.
  • Show author(s) (2013). North Atlantic variability of oceanic CO2 uptake in response to simulated past, present and future climate change.
  • Show author(s) (2012). Trends in the North Atlantic CO2 uptake and their correlation to ocean circulation and stratification as simulated by the Bergen Climate Model.
  • Show author(s) (2012). North Atlantic trends in ocean circulation and stratification and their correlation to the oceanic CO2 uptake as simulated by the Bergen Climate Model.
Academic literature review
  • Show author(s) (2020). The impacts of ocean acidification on marine trace gases and the implications for atmospheric chemistry and climate. Proceedings of the Royal Society. Mathematical, Physical and Engineering Sciences.
  • Show author(s) (2015). The ocean carbon sink - Impacts, vulnerabilities and challenges. Earth System Dynamics. 327-358.
Briefs
  • Show author(s) (2018). UNEP foresight Brief 09: Revisiting ocean acidification, food security and our earth system.
Website (informational material)
  • Show author(s) (2022). “Writing successful project proposal” workshop report.
  • Show author(s) (2021). “From idea to project: Writing successful project proposals” workshop report.

More information in national current research information system (CRIStin)

Publications

N. Goris, and H. Elbern, Singular vector decomposition for sensitivity analyses of tropospheric chemical scenarios, Atmos. Chem. Phys., 13, 5063-5087, doi:10.5194/acp-13-5063-2013, 2013

N. Goris, Singular Vector Based Targeted Observations of Atmospheric Chemical Compounds, PhD thesis, Universität zu Köln, 2011

H. Elbern, A. Strunk, E. Friese, N. Goris, K. Kasradze, and L. Nieradzik, IMACCO: Inverse Modelling of the Atmospheric Chemical Composition, Edts.: G. Münster, D. Wolf, M. Kremer, Proceedings of the 5th John-von-Neumann Institute for Computing Symposium, pp. 297-304, Jülich, 24.-25.02.2010

A. Strunk, A. Ebel, H. Elbern, E. Friese, N. Goris, and L. Nieradzik, Fourdimensional Variational Assimilation of Atmospheric Chemical Data - Application to Regional Modelling of Air Quality, Proceedings of the 7th Large Scale Supercomputing Conference, Sozopol, 2009

H. Maurer, I. Altrogge, and N. Goris, Optimization methods for solving bang-bang control problems with state constraints and the verification of sufficient conditions, Proceedings of the 44th IEEE Conference on Decision and Control, and the European Control Conference 2005 Seville, pp. 923-928, Spain, 12.-15.12.2005

N. Goris, Hinreichende Optimalitätsbedingungen für optimale Steuerprozesse mit Zu-standsbeschränkungen und linear auftretender Steuerung: Beispiele aus der Medizin und Physik, Diploma thesis, Westfälische Wilhelms-Universität Münster, 2005

Presentations

N. Goris, C. Heinze, J. Tjiputra, J. Schwinger, Quantifying the climate-driven processes leading to a reduced CO2 uptake in the North Atlantic: A model study with the Bergen Climate Model, oral presentation at the IMBER Open Science Conference; 2014-06-23 - 2014-06-27

N. Goris and H. Elbern, Targeted observations of chemical constituents, oral presentation at the EGU General Assembly 2008, EGU2008-A-03164, Vienna

Poster

N. Goris, C. Heinze, J. Tjiputra, J. Schwinger, North Atlantic variability of oceanic CO2 uptake in response to simulated past, present and future climate change, 9th International Carbon Dioxide Conference; 2013-06-03 - 2013-06-07

N. Goris, C. Heinze, S. K. Lauvset, D. Petrenko, D. Pozdnyakov, J. Schwinger, Simulated and observed trends in key variables of the Arctic marine carbon cycle, EGU General Assembly 2013, 2013-04-07 - 2013-04-12

N. Goris, C. Heinze, J. Tjiputra, J. Schwinger, Trends in the North Atlantic CO2 uptake and their correlation to ocean circulation and stratification as simulated by the Bergen Climate Model, 3rd International Conference on Earth System Modelling, 2012-09-17 - 2012-09-21

N. Goris, C. Heinze, J. Tjiputra, J. Schwinger, North Atlantic trends in ocean circulation and stratification and their correlation to the oceanic CO2 uptake as simulated by the Bergen Climate Model, Bjerknes Centre 10-year Anniversary Conference; 2012-09-03 - 2012-09-06

N. Goris and H. Elbern, Targeted observations of chemical constituents, Geophysical Research Abstracts Vol. 12, EGU2010-12659, 2010

N. Goris and H. Elbern, Gezielte Beobachtungen von chemischen Komponenten, DACH2010-308, Bonn, 20.-24.09.2010

 

(MONitoring and Assessing Regional Climate change in High latitudes and the Arctic)

(Changes in carbon uptake and emissions by oceans in a changing climate)