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Uncertainty in twenty-first-century CMIP5 sea level projections
Christopher M. Little
, Radley M. Horton
,
Robert E. Kopp
, Michael Oppenheimer
, Stan Yip
School of Arts and Sciences, Earth & Planetary Sciences
Research output
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Contribution to journal
›
Article
›
peer-review
49
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Scopus citations
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Keyphrases
21st Century
100%
Model Uncertainty
100%
Atmosphere-ocean General Circulation Model
100%
Sea Level Projections
100%
Coupled Model Intercomparison Project Phase 5 (CMIP5)
100%
Internal Variability
100%
Climate System
66%
Global Mean Sea Level
66%
Inter-model Spread
66%
Distinct Responses
33%
New York City
33%
North Atlantic
33%
Global Sea Level
33%
Arctic Ocean
33%
Coupled Model Intercomparison Project
33%
Sea Level Rise Scenarios
33%
Anthropogenic Forcing
33%
Uncertainty Sources
33%
Surface Air Temperature
33%
Local Sea Level
33%
Relative Magnitude
33%
Local Projections
33%
Representative Concentration Pathways
33%
CMIP5 Projections
33%
Natural Forcing
33%
Risk Management Practices
33%
Pathway Simulation
33%
Local Risk
33%
Uncertainty Scenarios
33%
Scenario Uncertainty
33%
Earth and Planetary Sciences
Sea Level
100%
CMIP
100%
General Circulation Model
60%
North Atlantic
20%
Sea Level Rise
20%
New York
20%
Arctic Ocean
20%
Air Temperature
20%
Risk Management
20%
Engineering
Model Uncertainty
100%
Global Scale
33%
Coupled Model
33%
Lead Time
33%
Local Scale
33%
Relative Magnitude
33%