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16 results on '"du Pontavice, Hubert"'

1. Applying ensemble ecosystem model projections to future-proof marine conservation planning in the Northwest Atlantic Ocean

Author

Bryndum-Buchholz, Andrea, Blanchard, Julia L, Coll, Marta, Du Pontavice, Hubert, Everett, Jason D, Guiet, Jerome, Heneghan, Ryan F, Maury, Olivier, Novaglio, Camilla, Palacios-Abrantes, Juliano, Petrik, Colleen M, Tittensor, Derek P, and Lotze, Heike K

Subjects
Life Below Water, Climate Action, Life on Land
Abstract

Climate change is altering marine ecosystems across the globe and is projected to do so for centuries to come. Marine conservation agencies can use short- and long-term projections of species-specific or ecosystem-level climate responses to inform marine conservation planning. Yet, integration of climate change adaptation, mitigation, and resilience into marine conservation planning is limited. We analysed future trajectories of climate change impacts on total consumer biomass and six key physical and biogeochemical drivers across the Northwest Atlantic Ocean to evaluate the consequences for Marine Protected Areas (MPAs) and Other Effective area-based Conservation Measures (OECMs) in Atlantic Canada. We identified climate change hotspots and refugia, where the environmental drivers are projected to change most or remain close to their current state, respectively, by mid- and end-century. We used standardized outputs from the Fisheries and Marine Ecosystem Model Intercomparison Project and the 6th Coupled Model Intercomparison Project. Our analysis revealed that, currently, no existing marine conservation areas in Atlantic Canada overlap with identified climate refugia. Most (75%) established MPAs and more than one-third (39%) of the established OECMs lie within cumulative climate hotspots. Our results provide important long-term context for adaptation and future-proofing spatial marine conservation planning in Canada and the Northwest Atlantic region.

Published
2023

2. Trophic amplification: A model intercomparison of climate driven changes in marine food webs.

Author

Guibourd de Luzinais, Vianney, du Pontavice, Hubert, Reygondeau, Gabriel, Barrier, Nicolas, Blanchard, Julia, Bornarel, Virginie, Büchner, Matthias, Cheung, William, Eddy, Tyler, Everett, Jason, Guiet, Jerome, Harrison, Cheryl, Maury, Olivier, Novaglio, Camilla, Steenbeek, Jeroen, Tittensor, Derek, Gascuel, Didier, and Petrik, Colleen

Subjects
Animals, Food Chain, Ecosystem, Nutritional Status, Climate, Biomass
Abstract

Marine animal biomass is expected to decrease in the 21st century due to climate driven changes in ocean environmental conditions. Previous studies suggest that the magnitude of the decline in primary production on apex predators could be amplified through the trophodynamics of marine food webs, leading to larger decreases in the biomass of predators relative to the decrease in primary production, a mechanism called trophic amplification. We compared relative changes in producer and consumer biomass or production in the global ocean to assess the extent of trophic amplification. We used simulations from nine marine ecosystem models (MEMs) from the Fisheries and Marine Ecosystem Models Intercomparison Project forced by two Earth System Models under the high greenhouse gas emissions Shared Socioeconomic Pathways (SSP5-8.5) and a scenario of no fishing. Globally, total consumer biomass is projected to decrease by 16.7 ± 9.5% more than net primary production (NPP) by 2090-2099 relative to 1995-2014, with substantial variations among MEMs and regions. Total consumer biomass is projected to decrease almost everywhere in the ocean (80% of the worlds oceans) in the model ensemble. In 40% of the worlds oceans, consumer biomass was projected to decrease more than NPP. Additionally, in another 36% of the worlds oceans consumer biomass is expected to decrease even as projected NPP increases. By analysing the biomass response within food webs in available MEMs, we found that model parameters and structures contributed to more complex responses than a consistent amplification of climate impacts of higher trophic levels. Our study provides additional insights into the ecological mechanisms that will impact marine ecosystems, thereby informing model and scenario development.

Published
2023

4. Disentangling diverse responses to climate change among global marine ecosystem models

Author

Heneghan, Ryan F, Galbraith, Eric, Blanchard, Julia L, Harrison, Cheryl, Barrier, Nicolas, Bulman, Catherine, Cheung, William, Coll, Marta, Eddy, Tyler D, Erauskin-Extramiana, Maite, Everett, Jason D, Fernandes-Salvador, Jose A, Gascuel, Didier, Guiet, Jerome, Maury, Olivier, Palacios-Abrantes, Juliano, Petrik, Colleen M, du Pontavice, Hubert, Richardson, Anthony J, Steenbeek, Jeroen, Tai, Travis C, Volkholz, Jan, Woodworth-Jefcoats, Phoebe A, and Tittensor, Derek P

Subjects
Climatic change, Modelling, Fishery oceanography, Marine ecology, FishMIP, Structural uncertainty, Oceanography, Geology
Published
2021

8. Disentangling diverse responses to climate change among global marine ecosystem models

Author

Heneghan, Ryan F., Galbraith, Eric, Blanchard, Julia L., Harrison, Cheryl, Barrier, Nicolas, Bulman, Catherine, Cheung, William, Coll, Marta, Eddy, Tyler D., Erauskin-Extramiana, Maite, Everett, Jason D., Fernandes-Salvador, Jose A., Gascuel, Didier, Guiet, Jerome, Maury, Olivier, Palacios-Abrantes, Juliano, Petrik, Colleen M., du Pontavice, Hubert, Richardson, Anthony J., Steenbeek, Jeroen, Tai, Travis C., Volkholz, Jan, Woodworth-Jefcoats, Phoebe A., and Tittensor, Derek P.

Published
2021
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9. Next-generation ensemble projections reveal higher climate risks for marine ecosystems

Author

Tittensor, Derek P., Novaglio, Camilla, Harrison, Cheryl S., Heneghan, Ryan F., Barrier, Nicolas, Bianchi, Daniele, Bopp, Laurent, Bryndum-Buchholz, Andrea, Britten, Gregory L., Büchner, Matthias, Cheung, William W. L., Christensen, Villy, Coll, Marta, Dunne, John P., Eddy, Tyler D., Everett, Jason D., Fernandes-Salvador, Jose A., Fulton, Elizabeth A., Galbraith, Eric D., Gascuel, Didier, Guiet, Jerome, John, Jasmin G., Link, Jason S., Lotze, Heike K., Maury, Olivier, Ortega-Cisneros, Kelly, Palacios-Abrantes, Juliano, Petrik, Colleen M., du Pontavice, Hubert, Rault, Jonathan, Richardson, Anthony J., Shannon, Lynne, Shin, Yunne-Jai, Steenbeek, Jeroen, Stock, Charles A., and Blanchard, Julia L.

Published
2021
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10. NOAA fisheries research geared towards climate-ready living marine resource management in the northeast United States

Author

Saba, Vincent, primary, Borggaard, Diane, additional, Caracappa, Joseph C., additional, Chambers, R. Christopher, additional, Clay, Patricia M., additional, Colburn, Lisa L., additional, Deroba, Jonathan, additional, DePiper, Geret, additional, du Pontavice, Hubert, additional, Fratantoni, Paula, additional, Ferguson, Marianne, additional, Gaichas, Sarah, additional, Hayes, Sean, additional, Hyde, Kimberly, additional, Johnson, Michael, additional, Kocik, John, additional, Keane, Ellen, additional, Kircheis, Dan, additional, Large, Scott, additional, Lipsky, Andrew, additional, Lucey, Sean, additional, Mercer, Anna, additional, Meseck, Shannon, additional, Miller, Timothy J., additional, Morse, Ryan, additional, Orphanides, Christopher, additional, Reichert-Nguyen, Julie, additional, Richardson, David, additional, Smith, Jeff, additional, Vogel, Ronald, additional, Vogt, Bruce, additional, and Wikfors, Gary, additional

Published
2023
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11. Temporal and spatial comparisons of ocean quahog (Arctica islandica) growth and lifespan on the mid-Atlantic continental shelf during inshore transgressions of their range from the Neoglacial through the twentieth century

Author

LeClaire, Alyssa M., primary, Powell, Eric N., additional, Mann, Roger, additional, Hemeon, Kathleen M., additional, Pace, Sara M., additional, Saba, Vincent, additional, du Pontavice, Hubert, additional, and Sower, Jillian R., additional

Published
2023
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12. A high-resolution physical-biogeochemical model for marine resource applications in the Northwest Atlantic (MOM6-COBALT-NWA12 v1.0)

Author

Ross, Andrew C., primary, Stock, Charles A., additional, Adcroft, Alistair, additional, Curchitser, Enrique, additional, Hallberg, Robert, additional, Harrison, Matthew J., additional, Hedstrom, Katherine, additional, Zadeh, Niki, additional, Alexander, Michael, additional, Chen, Wenhao, additional, Drenkard, Elizabeth J., additional, du Pontavice, Hubert, additional, Dussin, Raphael, additional, Gomez, Fabian, additional, John, Jasmin G., additional, Kang, Dujuan, additional, Lavoie, Diane, additional, Resplandy, Laure, additional, Roobaert, Alizée, additional, Saba, Vincent, additional, Shin, Sang-Ik, additional, Siedlecki, Samantha, additional, and Simkins, James, additional

Published
2023
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13. A high-resolution physical–biogeochemical model for marine resource applications in the northwest Atlantic (MOM6-COBALT-NWA12 v1.0).

Author

Ross, Andrew C., Stock, Charles A., Adcroft, Alistair, Curchitser, Enrique, Hallberg, Robert, Harrison, Matthew J., Hedstrom, Katherine, Zadeh, Niki, Alexander, Michael, Chen, Wenhao, Drenkard, Elizabeth J., du Pontavice, Hubert, Dussin, Raphael, Gomez, Fabian, John, Jasmin G., Kang, Dujuan, Lavoie, Diane, Resplandy, Laure, Roobaert, Alizée, and Saba, Vincent

Subjects
MARINE resources, GULF Stream, WATER masses, CONTINENTAL shelf, OCEAN dynamics, SEA ice, MARINE resources conservation
Abstract

We present the development and evaluation of MOM6-COBALT-NWA12 version 1.0, a 1/12 ∘ model of ocean dynamics and biogeochemistry in the northwest Atlantic Ocean. This model is built using the new regional capabilities in the MOM6 ocean model and is coupled with the Carbon, Ocean Biogeochemistry and Lower Trophics (COBALT) biogeochemical model and Sea Ice Simulator version-2 (SIS2) sea ice model. Our goal was to develop a model to provide information to support living-marine-resource applications across management time horizons from seasons to decades. To do this, we struck a balance between a broad, coastwide domain to simulate basin-scale variability and capture cross-boundary issues expected under climate change; a high enough spatial resolution to accurately simulate features like the Gulf Stream separation and advection of water masses through finer-scale coastal features; and the computational economy required to run the long simulations of multiple ensemble members that are needed to quantify prediction uncertainties and produce actionable information. We assess whether MOM6-COBALT-NWA12 is capable of supporting the intended applications by evaluating the model with three categories of metrics: basin-wide indicators of the model's performance, indicators of coastal ecosystem variability and the regional ocean features that drive it, and model run times and computational efficiency. Overall, both the basin-wide and the regional ecosystem-relevant indicators are simulated well by the model. Where notable model biases and errors are present in both types of indicator, they are mainly consistent with the challenges of accurately simulating the Gulf Stream separation, path, and variability: for example, the coastal ocean and shelf north of Cape Hatteras are too warm and salty and have minor biogeochemical biases. During model development, we identified a few model parameters that exerted a notable influence on the model solution, including the horizontal viscosity, mixed-layer restratification, and tidal self-attraction and loading, which we discuss briefly. The computational performance of the model is adequate to support running numerous long simulations, even with the inclusion of coupled biogeochemistry with 40 additional tracers. Overall, these results show that this first version of a regional MOM6 model for the northwest Atlantic Ocean is capable of efficiently and accurately simulating historical basin-wide and regional mean conditions and variability, laying the groundwork for future studies to analyze this variability in detail, develop and improve parameterizations and model components to better capture local ocean features, and develop predictions and projections of future conditions to support living-marine-resource applications across timescales. [ABSTRACT FROM AUTHOR]

Published
2023
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14. A high-resolution physical-biogeochemical model for marine resource applications in the northwest Atlantic (MOM6-COBALT-NWA12 v1.0)

Author

Ross, Andrew A.C., Stock, Charles C.A., Adcroft, Alistair, Curchitser, Enrique, Hallberg, Robert, Harrison, Matthew M.J., Hedstrom, Katherine, Zadeh, Niki, Alexander, Michael, Chen, Wenhao, Drenkard, Elizabeth E.J., Du Pontavice, Hubert, Dussin, Raphael, Gomez, Fabian, John, Jasmin J.G., Kang, Dujuan, Lavoie, Diane, Resplandy, Laure LR, Roobaert, Alizée, Saba, Vincent, Shin, Sang Ik, Siedlecki, Samantha, Simkins, James, Ross, Andrew A.C., Stock, Charles C.A., Adcroft, Alistair, Curchitser, Enrique, Hallberg, Robert, Harrison, Matthew M.J., Hedstrom, Katherine, Zadeh, Niki, Alexander, Michael, Chen, Wenhao, Drenkard, Elizabeth E.J., Du Pontavice, Hubert, Dussin, Raphael, Gomez, Fabian, John, Jasmin J.G., Kang, Dujuan, Lavoie, Diane, Resplandy, Laure LR, Roobaert, Alizée, Saba, Vincent, Shin, Sang Ik, Siedlecki, Samantha, and Simkins, James

Abstract

We present the development and evaluation of MOM6-COBALT-NWA12 version 1.0, a 1/12 model of ocean dynamics and biogeochemistry in the northwest Atlantic Ocean. This model is built using the new regional capabilities in the MOM6 ocean model and is coupled with the Carbon, Ocean Biogeochemistry and Lower Trophics (COBALT) biogeochemical model and Sea Ice Simulator version-2 (SIS2) sea ice model. Our goal was to develop a model to provide information to support living-marine-resource applications across management time horizons from seasons to decades. To do this, we struck a balance between a broad, coastwide domain to simulate basin-scale variability and capture cross-boundary issues expected under climate change; a high enough spatial resolution to accurately simulate features like the Gulf Stream separation and advection of water masses through finer-scale coastal features; and the computational economy required to run the long simulations of multiple ensemble members that are needed to quantify prediction uncertainties and produce actionable information. We assess whether MOM6-COBALT-NWA12 is capable of supporting the intended applications by evaluating the model with three categories of metrics: basin-wide indicators of the model's performance, indicators of coastal ecosystem variability and the regional ocean features that drive it, and model run times and computational efficiency. Overall, both the basin-wide and the regional ecosystem-relevant indicators are simulated well by the model. Where notable model biases and errors are present in both types of indicator, they are mainly consistent with the challenges of accurately simulating the Gulf Stream separation, path, and variability: for example, the coastal ocean and shelf north of Cape Hatteras are too warm and salty and have minor biogeochemical biases. During model development, we identified a few model parameters that exerted a notable influence on the model solution, including the horizontal viscosity, m, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2023

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