Laurent Bopp océanographe et climatologue français
Bopp, Laurent, 1974-....
Bopp, Laurent
VIAF ID: 120752193 (Personal)
Permalink: http://viaf.org/viaf/120752193
Preferred Forms
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- 100 1 _ ‡a Bopp, Laurent
- 100 1 _ ‡a Bopp, Laurent, ‡d 1974-....
- 100 0 _ ‡a Laurent Bopp ‡c océanographe et climatologue français
4xx's: Alternate Name Forms (2)
5xx's: Related Names (2)
- 511 2 _ ‡a École normale supérieure (Paris)
- 511 2 _ ‡a Laboratoire de météorologie dynamique (Palaiseau, Essonne)
Works
Title | Sources |
---|---|
Bloom phenology, mechanisms and future change in the Southern Ocean | |
Changements climatiques et biogéochimie marine : modélisation du Dernier Maximum Glaciaire et de l'Ere Industrielle | |
Climate change and marine biogeochemistry : stimulating the Last Glacial Maximum and the Industrial Era. | |
Le cycle du carbone en climat glaciaire : état moyen et variabilité | |
Les dessous de l'océan | |
Gaïa : hypothèse, programme de recherche pour le système terre, ou philosophie de la nature ? | |
Global carbon budget 2013 | |
Impact du changement climatique et l'acidification des océans sur le cycle océanique de l'azote | |
Impact of climate change on ocean carbon fluxes : role of the decadal variability. | |
Impact of sub-mesoscale fronts on phytoplankton quantified by satellite imagery. | |
Impacts of global change on biodiversity in the Mediterranean Sea : and End-to-End modelling approach. | |
Interaction between Arctic sea ice, light and phytoplankton. | |
Last Glacial Maximum CO2 and δ13C successfully reconciled | |
De l'interaction entre banquise, lumière et phytoplancton arctique | |
L'océan, le climat et nous : un équilibre fragile ? | |
Major changes in Biological Productivity during the Quaternary and their impacts on the carbon and oxygen cycles. | |
Mid-Holocene and last glacial maximum climate simulations with the IPSL model: part II: model-data comparisons | |
Modélisation biogéochimique de la mer Méditerranée avec le modèle régional couplé NEMO-MED12/PISCES | |
Modélisation de l'impact du Fer particulaire d'origine sédimentaire sur les cycles biogéochimiques marins | |
Modélisation de l'oxygène océanique et de la productivité marine au Cénomano-Turonien avec le modèle système Terre IPSL | |
Modelling of carbon cycle in glaciai times : mean state and variability. | |
Modelling planktic foraminifer growth and distribution using an ecophysiological multi-species approach | |
Modelling the effect of iron fertilization on dimethylsulphide emissions in the Southern Ocean | |
Multiple stressors of ocean ecosystems in the 21st century: projections with CMIP5 models | |
Natural variability of CO2 and O2 fluxes: What can we learn from centuries‐long climate models simulations? | |
Nonlinearity of Ocean Carbon Cycle Feedbacks in CMIP5 Earth System Models | |
Ocean biogeochemistry exhibits contrasting responses to a large scale reduction in dust deposition | |
Ocean (de)oxygenation from the Last Glacial Maximum to the twenty-first century: insights from Earth System models | |
The oceanic cycle of carbon monoxide and its emissions to the atmosphere | |
Oceanic emissions of gases of interest for atmospheric chemistry - Modeling oceanic dynamics of CO, isoprene and DMS. | |
OCEANOGRAPHY. Contrasting futures for ocean and society from different anthropogenic CO₂ emissions scenarios | |
Oxygen and indicators of stress for marine life in multi-model global warming projections | |
Pathways of anthropogenic carbon subduction in the global ocean | |
Phénologie, mécanismes et changement futur du cycle saisonnier phytoplanktonique dans l'Océan Austral. | |
Physical processes mediating climate change impacts on regional sea ecosystems | |
Les poissons vont-ils mourir de faim (et nous avec)? | |
Potential impacts of climate change on the primary production of regional seas: A comparative analysis of five European seas | |
Predictable Variations of the Carbon Sinks and Atmospheric CO 2 Growth in a Multi‐Model Framework | |
Preformed and regenerated phosphate in ocean general circulation models: can right total concentrations be wrong? | |
Presentation and Evaluation of the IPSL‐CM6A‐LR Climate Model | |
Processes and patterns of oceanic nutrient limitation | |
Projected 21st century decrease in marine productivity: a multi-model analysis | |
Projected decreases in future marine export production: the role of the carbon flux through the upper ocean ecosystem | |
Projected impacts of climate change and ocean acidification on the global biogeography of planktonic Foraminifera | |
Projected pH reductions by 2100 might put deep North Atlantic biodiversity at risk | |
Puits de carbone, une chance pour le climat | |
Rapid climatic driven shifts of diatoms at high latitudes | |
Re-evaluating the 1940s CO<sub>2</sub> plateau | |
Réponse à l'échelle génomique des communautés planctoniques au réchauffement climatique et conséquences sur leur biogéographie | |
Response at the genomic scale of plankton communities to climate change and consequences on their biogeographies. | |
The response of marine carbon and nutrient cycles to ocean acidification: Large uncertainties related to phytoplankton physiological assumptions | |
Response of ocean ecosystems to climate warming | |
The response of phytoplankton biomass to transient mixing events in the Southern Ocean | |
Retraction Note: Quantification of ocean heat uptake from changes in atmospheric O2 and CO2 composition | |
Revision of global carbon fluxes based on a reassessment of oceanic and riverine carbon transport | |
Le rôle du fleuve Mackenzie dans la biogéochimie du carbone des eaux côtières de la mer de Beaufort (Océan Arctique). | |
Role of mode and intermediate waters in future ocean acidification: Analysis of CMIP5 models | |
The role of oceanic mesoscale in the tropical Atlantic Ocean on salinity and air-sea CO2 flux. | |
Role of sea ice in global biogeochemical cycles: emerging views and challenges | |
The role of the Mackenzie River in the carbon biogeochemistry of the Beaufort Sea coastal waters (Arctic Ocean) | |
Role of zooplankton dynamics for Southern Ocean phytoplankton biomass and global biogeochemical cycles | |
Sensitivity of ocean biogeochemistry to the iron supply from the Antarctic Ice Sheet explored with a biogeochemical model | |
Short-term dissolution response of pelagic carbonate sediments to the invasion of anthropogenic CO2: A model study | |
The significance of the episodic nature of atmospheric deposition to Low Nutrient Low Chlorophyll regions | |
Simulating dimethylsulphide seasonality with the Dynamic Green Ocean Model PlankTOM5 | |
Sources, transport and deposition of iron in the global atmosphere | |
Southern Hemisphere westerly wind changes during the Last Glacial Maximum: paleo-data synthesis | |
Spatial and body-size dependent response of marine pelagic communities to projected global climate change | |
Spatio-temporal variability of the gelatinous zooplankton and its link with material fluxes through the combination of experimental and modelling approaches. | |
Stratospheric ozone depletion reduces ocean carbon uptake and enhances ocean acidification | |
Study of diatom/copepod interactions on carbon export in a context of climate change. | |
Study of organic carbon export in the Mediterranean Sea using a coupled biogeochemistry/physic model. | |
Towards understanding global variability in ocean carbon-13 | |
Tracking Improvement in Simulated Marine Biogeochemistry Between CMIP5 and CMIP6 | |
Transport and storage of anthropogenic C in the North Atlantic Subpolar Ocean | |
Trends in the sources and sinks of carbon dioxide | |
Using altimetry to help explain patchy changes in hydrographic carbon measurements | |
Variabilité climatique de l’Océan Indien Tropical depuis le dernier maximum glaciaire et son impact sur la productivité primaire : apport des comparaisons modèles-données. | |
Variabilité des écosystèmes marins de l'échelle inter-annuelle au dernier cycle glaciaire-interglaciaire | |
variabilité intra-saisonnière de la production primaire océanique Austral : le rôle des tempêtes et turbulence mésoéchelle. | |
Water Mass Analysis of Effect of Climate Change on Air–Sea CO2Fluxes: The Southern Ocean | |
Water masses as a unifying framework for understanding the Southern Ocean Carbon Cycle | |
What does temporal variability in aeolian dust deposition contribute to sea-surface iron and chlorophyll distributions? |