Member Since 1993
Stephen Matthew Griffies
Physical Scientist, Princeton University Program in Atmospheric and Oceanic Sciences
AGU Research
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Thank You to Our 2024 Peer Reviewers
JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
18 march 2025
Stephen M. Griffies, Jiwen Fan, Yuanyuan Huang, Na...
The editors of Journal of Advances in Modeling Earth Systems thank the 1,001 reviewers who provided 1,593 reviews during 2024. Their hard work and ...
Water Mass Transformation Budgets in Finite‐Volume Generalized Vertical Coordinate Ocean Models
JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
08 march 2025
Henri F. Drake, Shanice Bailey, Raphael Dussin, St...
Water Mass Transformation (WMT) theory provides conceptual tools that in principle enable innovative analyses of numerical ocean models; in practic...
The Averaged Hydrostatic Boussinesq Ocean Equations in Generalized Vertical Coordinates
JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS
17 december 2024
Malte Jansen, Alistair Adcroft, Stephen M. Griffie...
Due to their limited resolution, numerical ocean models need to be interpreted as representing filtered or averaged equations. How to interpret mod...
Sterodynamic Sea Level Uncertainty in 21st Century Climate Projections
ADVANCES IN OUR UNDERSTANDING OF PAST, PRESENT, AND FUTURE SEA LEVEL CHANGE I ORAL
geodesy | 13 december 2024
Jan-Erik Tesdal, John P. Krasting, Stephen M. Grif...
Characterizing the complex uncertainties surrounding future sea-level changes is crucial for coastal risk assessments and adaptation strategies. This ...
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Towards an improved understanding of the physical processes connecting coastal and offshore sea level
ADVANCING PREDICTIONS OF SEA LEVEL VARIABILITY AND ASSOCIATED HAZARDS ACROSS SUBSEASONAL TO INTERANNUAL TIMESCALES I ORAL
ocean sciences | 13 december 2024
Jacob Steinberg, Stephen M. Griffies, John P. Kras...
Global mean sea level rise shifts the baseline about which higher frequency variability contributes to increasingly adverse coastal flooding. As a res...
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Disentangling the Oceanic Circulation: toward a time-aware, region-aware, and scale-aware Lorenz Energy Cycle
GEOPHYSICAL FLUID DYNAMICS I ORAL
nonlinear geophysics | 12 december 2024
Hussein Aluie, Michele Buzzicotti, Matthew W. Hech...
The coupling between scales ranging from O(104) km down to O(1) mm presents a major difficulty in understanding, modeling, and predicting oceanic circ...
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The GFDL-CM4X Climate Model Hierarchy and the Mesoscale Dominance Hypothesis
HIGH-RESOLUTION EARTH SYSTEM MODELING ON LARGE SUPERCOMPUTERS II ORAL
atmospheric sciences | 12 december 2024
Stephen M. Griffies, Alistair Adcroft, Marion S. A...
We present the GFDL-CM4X coupled climate model hierarchy, whose primary focus is to investigate ocean and sea ice physics as part of a realistic coupl...
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Global Ocean Spectra, Cascades Across Scales, and their Atmospheric Coupling
EXTREME VARIABILITY AND COMPLEXITY: BRIDGING MATHEMATICS, PHYSICS, AND INFORMATION TECHNOLOGIES FROM URBAN SYSTEMS TO CLIMATE, GEOPHYSICS, AND PANDEMICS II POSTER
nonlinear geophysics | 11 december 2024
Hussein Aluie, Benjamin A. Storer, Michele Buzzico...
Our understanding of the oceans spatial scales and their coupling has been derived mostly from Fourier analysis in small "representative" regions, typ...
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