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Atmosphere/Ocean

  1. Simulated climate and climate change in the GFDL CM2.5 high-resolution coupled climate model: Delworth et al. (2012)
  2. Analysis of the characteristics and mechanisms of the Pacific Decadal Oscillation in a suite of coupled models from the Geophysical Fluid Dynamics Laboratory: Zhang and Delworth (2015)
  3. The impact of horizontal resolution on North American monsoon Gulf of California moisture surges in a suite of high-resolution coupled models: Pascale et al. (2016)
  4. Changes in North Atlantic atmospheric circulation in a warmer climate favor winter flooding and summer drought over Europe: Rousi et al. (2021)

Ocean Physics

  1. Has coarse ocean resolution biased simulations of transient climate sensitivity: Winton et al. (2014)
  2. Climate modeling with an energetic ocean mesoscale: Griffies (2014)
  3. Impacts on ocean heat from transient mesoscale eddies in a hierarchy of climate models: Griffies et al. (2015)
  4. Atlantic multi-decadal oscillation covaries with Agulhas leakage: Biastoch et al. (2015)
  5. An extreme event of sea-level rise along the northeast coast of North America in 2009-2010: Goddard et al. (2015)
  6. Enhanced warming of the northwest Atlantic Ocean under climate change: Saba et al. (2016)
  7. Mechanisms of Southern Ocean heat uptake and transport in a global eddying climate model: Morrison et al. (2016)
  8. Preconditioning of the Weddell Sea polynya by the ocean mesoscale and dense water overflows: Dufour et al. (2017)
  9. Spiraling pathways of global deep waters to the surface of the Southern Ocean: Tamsitt et al. (2017)
  10. CO2-induced ocean warming of the Antarctic continental shelf in an eddying global climate model: Goddard et al. (2017)
  11. Frequency-domain analysis of atmospherically forced versus intrinsic ocean surface kinetic energy variability in GFDL’s CM2-O model hierarchy: O’Rourke et al. (2018)
  12. Lagrangian timescales of Southern Ocean upwelling in a hierarchy of model resolutions: Drake et al. (2018)
  13. Identifying Lagrangian coherent vortices in a mesocale ocean model: Tarshish et al. (2018)
  14. Observed fingerprint of a weakening Atlantic Ocean overturning circulation: Caesar et al. (2018)

Ocean Biogeochemistry/Physics

  1. The Southern Ocean Carbon and Climate Observations and Modeling Program (SOCCOM): Russell et al. (2014)
  2. Role of mesoscale eddies in cross-frontal transport of heat and biogeochemical tracers in the Southern Ocean: Dufour et al. (2015)
  3. Representation of Eastern Boundary Currents in GFDL’s Earth System Models: Dunne et al. (2015)
  4. Multidecadal wind-driven shifts in northwest Pacific temperature, salinity, O2, and PO4: Kwon et al. (2016)
  5. Observing System simulation experiments for an array of autonomous biogeochemical profiling floats in the Southern Ocean: Kamenkovich et al. (2017)
  6. Oxygen in the Southern Ocean from Argo floats: determination of processes driving air-sea fluxes: Bushinsky et al. (2017)
  7. Response of O2 and pH to ENSO in the California Current System in a high resolution global climate model: Turi et al. (2017)
  8. Biogeochemical role of subsurface coherent eddies in the ocean: tracer cannonballs, hypoxic storms, and microbial stewpots?: Frenger et al. (2017)
  9. Roles of the ocean mesoscale in the lateral supply of mass, heat, carbon and nutrients to the Northern Hemisphere subtropical gyres: Yamamoto et al. (2018)
  10. Rapid coastal deoxygenation due to ocean circulation shift in the northwest Atlantic: Claret et al. (2018)
  11. The Equatorial Undercurrent and the oxygen minimum zone in the Pacific: Busecke et al. (2019)

Ocean Ecosystem/Fisheries

  1. Projected asymmetric response of Ade´lie penguins to Antarctic climate change: Cimino et al. (2016)
  2. Diversity in thermal affinity among key piscivores buffers impacts of ocean warming on predator-prey interactions: Selden et al. (2017)
  3. Projecting the effects of climate change on Calanus finnmarchicus distribution within the U.S. Northeast Continental Shelf: Grieve et al. (2017)
  4. Marine species distribution shifts in the U.S. Northeast Continental Shelf under continued ocean warming: Kleisner et al. (2017)
  5. The growth of finfish in global open-ocean aquaculture under climate change: Klinger et al. (2017)
  6. Reconciling fisheries catch and ocean productivity: Stock et al. (2017)
  7. Managing living marine resources in a dynamic environment: The role of seasonal to decadal climate forecasts: Tommasi et al. (2017)
  8. Projecting marine species range shifts from only temperature can mask climate vulnerability: McHenry et al. (2019)
  9. Climate change vulnerability of American lobster fishing communities in Atlantic Canada: Greenan et al. (2019)
  10. An ensemble high-resolution projection of changes in the future habitat of American lobster and sea scallop in the Northeast US continental shelf: Tanaka et al. (2020)
  11. Contemporary and future distributions of cobia, Rachycentron canadum: Crear et al. (2020)

Ocean/sea-ice

  1. Localized rapid warming of West Antarctic subsurface waters by remote winds: Spence et al. (2017)
  2. Vertical resolution of baroclinic modes in global ocean models: Stewart et al. (2017)
  3. Warm Circumpolar Deep Water transport toward Antarctica driven by local dense water export in canyons: Morrison et al. (2020)

Computational

  1. NOAA holistic climate and earth system model strategy phase I: current state: DeWitt et al. (2015)
  2. CPMIP: measurements of real computational performance of Earth system models in CMIP6: Balaji et al. (2017)
  3. Prospects for improving the representation of coastal and shelf seas in global ocean models: Holt et al. (2017)

References

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  • Kleisner, K., M. Fogarty, S. McGee, J. Hare, S. Moret, C. Perretti, and V. Saba, Marine species distribution shifts in the U.S. Northeast Continental Shelf under continued ocean warming, Progress in Oceanography, 153, 24–36, doi: https://doi.org/10.1016/j.pocean.2017.04.001, 2017.
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