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Publication DateJournal of Geophysical Research: Oceans, ISSN 0148-0227, 05/2012, Volume 117, Issue C5, p. n/a
The California Current System (CCS) is expected to experience the ecological impacts of ocean acidification (OA) earlier than most other ocean regions because...
ocean acidification | California Current System | aragonite saturation | carbonate saturation | carbonate chemistry | VARIABILITY | UPWELLING SYSTEM | CALCIFYING ORGANISMS | ALKALINITY | OCEANOGRAPHY | CO2 | SHELF | INORGANIC CARBON | ECOSYSTEM | MARINE | OCEAN ACIDIFICATION | Earth | Climate change | Chemical oceanography | Oceans | Biological oceanography
ocean acidification | California Current System | aragonite saturation | carbonate saturation | carbonate chemistry | VARIABILITY | UPWELLING SYSTEM | CALCIFYING ORGANISMS | ALKALINITY | OCEANOGRAPHY | CO2 | SHELF | INORGANIC CARBON | ECOSYSTEM | MARINE | OCEAN ACIDIFICATION | Earth | Climate change | Chemical oceanography | Oceans | Biological oceanography
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Loading RightsJournal of Climate, ISSN 0894-8755, 10/2011, Volume 24, Issue 19, pp. 4973 - 4991
The fourth version of the Community Climate System Model (CCSM4) was recently completed and released to the climate community. This paper describes...
Climate change | Precipitation | SPECIAL Community Climate System Model CCSM4 COLLECTION | Oceans | Atmospheric models | Aerosols | Surface temperature | Climate models | Oceanic climates | Parameterization | Sea ice | Meridional overturning circulation | Madden-Julian oscillation | Model evaluation/performance | Convection | Tropics | VARIABILITY | PARAMETERIZATION | TEMPERATURE | CCSM3 | CONVECTION | SENSITIVITY | ATMOSPHERE MODEL | 20TH-CENTURY | METEOROLOGY & ATMOSPHERIC SCIENCES | GENERAL-CIRCULATION MODEL | MIXED-LAYER | Simulation | Science | Research | Atmospheric sciences | Greenhouse gases | Meteorology | STORAGE | SEAS | AEROSOLS | DISTRIBUTION | RESOLUTION | SIMULATION | ENVIRONMENTAL SCIENCES | PRECIPITATION | CLOUDS | AMPLITUDES | CLIMATES | OSCILLATIONS | PACIFIC OCEAN | UPWELLING | WATER
Climate change | Precipitation | SPECIAL Community Climate System Model CCSM4 COLLECTION | Oceans | Atmospheric models | Aerosols | Surface temperature | Climate models | Oceanic climates | Parameterization | Sea ice | Meridional overturning circulation | Madden-Julian oscillation | Model evaluation/performance | Convection | Tropics | VARIABILITY | PARAMETERIZATION | TEMPERATURE | CCSM3 | CONVECTION | SENSITIVITY | ATMOSPHERE MODEL | 20TH-CENTURY | METEOROLOGY & ATMOSPHERIC SCIENCES | GENERAL-CIRCULATION MODEL | MIXED-LAYER | Simulation | Science | Research | Atmospheric sciences | Greenhouse gases | Meteorology | STORAGE | SEAS | AEROSOLS | DISTRIBUTION | RESOLUTION | SIMULATION | ENVIRONMENTAL SCIENCES | PRECIPITATION | CLOUDS | AMPLITUDES | CLIMATES | OSCILLATIONS | PACIFIC OCEAN | UPWELLING | WATER
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Loading RightsGeophysical Research Letters, ISSN 0094-8276, 07/2016, Volume 43, Issue 13, pp. 7072 - 7080
The 2015–2016 El Niño is by some measures one of the strongest on record, comparable to the 1982–1983 and 1997–1998 events that triggered widespread ecosystem...
the Blob | 1997–1998 | El Niño | glider | ENSO | ROMS | SURFACE CHLOROPHYLL | REANALYSIS | AMERICA | COAST | 1997-1998 | ANOMALIES | CONFIGURATION | UNDERWATER GLIDERS | NORTHEAST PACIFIC | GEOSCIENCES, MULTIDISCIPLINARY | EVOLUTION | El Nino | TEMPERATURE | Sea surface | Temperature | Ecosystems | Underwater | Surface temperature | Summer | Biomass | Density | Ocean models | Spring (season) | Temperature effects | Tropical environment | Phytoplankton | Ocean currents | Temperature anomalies | Ocean circulation | Regional analysis | Sea surface temperature | Spring | Ocean temperature | Persistence | Fields | Sea surface temperature anomalies | Upwelling | Anomalies | Gliders
the Blob | 1997–1998 | El Niño | glider | ENSO | ROMS | SURFACE CHLOROPHYLL | REANALYSIS | AMERICA | COAST | 1997-1998 | ANOMALIES | CONFIGURATION | UNDERWATER GLIDERS | NORTHEAST PACIFIC | GEOSCIENCES, MULTIDISCIPLINARY | EVOLUTION | El Nino | TEMPERATURE | Sea surface | Temperature | Ecosystems | Underwater | Surface temperature | Summer | Biomass | Density | Ocean models | Spring (season) | Temperature effects | Tropical environment | Phytoplankton | Ocean currents | Temperature anomalies | Ocean circulation | Regional analysis | Sea surface temperature | Spring | Ocean temperature | Persistence | Fields | Sea surface temperature anomalies | Upwelling | Anomalies | Gliders
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Loading Rights2006, 3RD ED., ISBN 1405111186
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09/2016, ISBN 3319425226, 443
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Loading Rights1992, Geological Society special publication., ISBN 0903317788, Volume no. 64, 519
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Science, ISSN 0036-8075, 7/2012, Volume 337, Issue 6091, pp. 220 - 223
Nearshore waters of the California Current System (California CS) already have a low carbonate saturation state, making them particularly susceptible to ocean...
Aragonite | Simulations | Upwelling water | Oceans | REPORTS | Carbonates | Ocean acidification | Atmospherics | Modeling | Sea water | ORGANISMS | UPWELLING SYSTEMS | ATMOSPHERIC CO2 | MULTIDISCIPLINARY SCIENCES | CALCIFICATION | SEAWATER | MODEL | BIOLOGICAL PRODUCTION | ECOSYSTEM | CARBON-DIOXIDE | WORLD | Seawater - chemistry | California | Carbon Dioxide - analysis | Forecasting | Water Movements | Aquatic Organisms | Calcium Carbonate - analysis | Atmosphere | Computer Simulation | Ecosystem | Geologic Sediments - chemistry | Pacific Ocean | Hydrogen-Ion Concentration | Water acidification | Environmental aspects | Ocean | Chemical oceanography | Carbon dioxide | Ocean currents | Seawater | Ocean models | Marine | Saturation | Acidification
Aragonite | Simulations | Upwelling water | Oceans | REPORTS | Carbonates | Ocean acidification | Atmospherics | Modeling | Sea water | ORGANISMS | UPWELLING SYSTEMS | ATMOSPHERIC CO2 | MULTIDISCIPLINARY SCIENCES | CALCIFICATION | SEAWATER | MODEL | BIOLOGICAL PRODUCTION | ECOSYSTEM | CARBON-DIOXIDE | WORLD | Seawater - chemistry | California | Carbon Dioxide - analysis | Forecasting | Water Movements | Aquatic Organisms | Calcium Carbonate - analysis | Atmosphere | Computer Simulation | Ecosystem | Geologic Sediments - chemistry | Pacific Ocean | Hydrogen-Ion Concentration | Water acidification | Environmental aspects | Ocean | Chemical oceanography | Carbon dioxide | Ocean currents | Seawater | Ocean models | Marine | Saturation | Acidification
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Loading RightsJournal of Climate, ISSN 0894-8755, 12/2015, Volume 28, Issue 23, pp. 9409 - 9432
Of all the major coastal upwelling systems in the world’s oceans, the Benguela, located off southwest Africa, is the one that climate models find hardest to...
Climatology | Upwelling water | Coasts | Oceans | Atmospheric models | Ocean circulation models | Coastal currents | Climate models | Atmospherics | Ocean currents | Circulation/Dynamics | Ocean models | Upwelling/downwelling | Atmosphere-ocean interaction | Coupled models | Sea surface temperature | Atm/Ocean Structure/Phenomena | Models and modeling | Regional models | BIASES | SVERDRUP BALANCE | SEA-SURFACE TEMPERATURE | COUPLED MODEL | SEASONAL CYCLE | Ocean Structure | Phenomena | downwelling | EASTERN BOUNDARY CURRENTS | TROPICAL ATLANTIC SST | CALIFORNIA CURRENT SYSTEM | Dynamics | OCEAN CIRCULATION | Upwelling | GENERAL-CIRCULATION MODELS | Atm | METEOROLOGY & ATMOSPHERIC SCIENCES | Circulation | Wind | Biogeochemistry | Offshore | Bias | Atmosphere | Meteorology | Salinity
Climatology | Upwelling water | Coasts | Oceans | Atmospheric models | Ocean circulation models | Coastal currents | Climate models | Atmospherics | Ocean currents | Circulation/Dynamics | Ocean models | Upwelling/downwelling | Atmosphere-ocean interaction | Coupled models | Sea surface temperature | Atm/Ocean Structure/Phenomena | Models and modeling | Regional models | BIASES | SVERDRUP BALANCE | SEA-SURFACE TEMPERATURE | COUPLED MODEL | SEASONAL CYCLE | Ocean Structure | Phenomena | downwelling | EASTERN BOUNDARY CURRENTS | TROPICAL ATLANTIC SST | CALIFORNIA CURRENT SYSTEM | Dynamics | OCEAN CIRCULATION | Upwelling | GENERAL-CIRCULATION MODELS | Atm | METEOROLOGY & ATMOSPHERIC SCIENCES | Circulation | Wind | Biogeochemistry | Offshore | Bias | Atmosphere | Meteorology | Salinity
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Loading RightsGeophysical Research Letters, ISSN 0094-8276, 08/2014, Volume 41, Issue 16, pp. 5942 - 5950
To be robust and informative, marine ecosystem models and assessments require parameterized biophysical relationships that rely on realistic water column...
forage | Gulf of the Farallones | ecosystem oceanography | ROMS | preconditioning | Forage | Ecosystem oceanography | Preconditioning | WIND | PERFORMANCE | MONTEREY | SEBASTES | NORTHERN CALIFORNIA | GEOSCIENCES, MULTIDISCIPLINARY | PRODUCTIVITY | TOP PREDATORS | Ecosystems | Models | Ocean currents | Oceans | Krill | Winter | Dynamics | Upwelling | Springs | Dynamical systems
forage | Gulf of the Farallones | ecosystem oceanography | ROMS | preconditioning | Forage | Ecosystem oceanography | Preconditioning | WIND | PERFORMANCE | MONTEREY | SEBASTES | NORTHERN CALIFORNIA | GEOSCIENCES, MULTIDISCIPLINARY | PRODUCTIVITY | TOP PREDATORS | Ecosystems | Models | Ocean currents | Oceans | Krill | Winter | Dynamics | Upwelling | Springs | Dynamical systems
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Loading RightsDeep-Sea Research Part I, ISSN 0967-0637, 2008, Volume 55, Issue 4, pp. 435 - 450
In this study we use multi-year time series to examine the dynamic characteristics of coupled physical–biogeochemical processes that modulate interannual...
Hypoxia | Upwelling | Oxygen | Climate | Benguela | Ecosystem | hypoxia | OXYGEN MINIMUM ZONE | ecosystem | SEDIMENTS | PACIFIC | ORGANIC-MATTER | MARGINS | climate | SEA | AFRICA | upwelling | OCEANOGRAPHY | SULFATE REDUCTION | NAMIBIA | oxygen | benguela | CARIACO BASIN | Ecosystems | Earth Sciences | Sciences of the Universe | Physics | Geophysics
Hypoxia | Upwelling | Oxygen | Climate | Benguela | Ecosystem | hypoxia | OXYGEN MINIMUM ZONE | ecosystem | SEDIMENTS | PACIFIC | ORGANIC-MATTER | MARGINS | climate | SEA | AFRICA | upwelling | OCEANOGRAPHY | SULFATE REDUCTION | NAMIBIA | oxygen | benguela | CARIACO BASIN | Ecosystems | Earth Sciences | Sciences of the Universe | Physics | Geophysics
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Loading RightsFRONTIERS IN MARINE SCIENCE, ISSN 2296-7745, 02/2019, Volume 6
This paper reviews the design of the Tropical Pacific Observing System (TPOS) and its governance and takes a forward look at prospective change. The initial...
tropical moorings | tropical Pacific | ENSO | OCEAN | TPOS 2020 | ocean observing | EQUATORIAL UNDERCURRENT | SOUTH-PACIFIC | WESTERN BOUNDARY CURRENTS | user requirements | variable requirements | MARINE & FRESHWATER BIOLOGY | design | MERIDIONAL OVERTURNING CIRCULATION | DOUBLE-ITCZ | MINDANAO CURRENT | SURFACE SALINITY | INDONESIAN THROUGHFLOW | Climate cycles | Analysis | Environmental aspects | Ocean | Science/Earth/Space Science/The Earth/Weather/Causes of weather/Effects of the Oceans | Research | Ocean-atmosphere interaction | Meteorology, Maritime | Laboratories | Ecosystems | Coastal upwelling | Environmental changes | Latitude | Oceanography | Oceanic analysis | Design | Variables | El Nino | Sustainability | Tropical environment | Intertropical convergence zone | Emergency preparedness | Convergence zones | Upper ocean | Ocean circulation | Volume transport | Western boundary currents | Air-sea interaction | Climatic changes | Drifters | El Nino phenomena | Governance | Diurnal | Water temperature | Climate prediction | Floats | Climate change | Biogeochemistry | Boundary currents | Diurnal variations | Air sampling | Data collection | Upwelling | Stakeholders
tropical moorings | tropical Pacific | ENSO | OCEAN | TPOS 2020 | ocean observing | EQUATORIAL UNDERCURRENT | SOUTH-PACIFIC | WESTERN BOUNDARY CURRENTS | user requirements | variable requirements | MARINE & FRESHWATER BIOLOGY | design | MERIDIONAL OVERTURNING CIRCULATION | DOUBLE-ITCZ | MINDANAO CURRENT | SURFACE SALINITY | INDONESIAN THROUGHFLOW | Climate cycles | Analysis | Environmental aspects | Ocean | Science/Earth/Space Science/The Earth/Weather/Causes of weather/Effects of the Oceans | Research | Ocean-atmosphere interaction | Meteorology, Maritime | Laboratories | Ecosystems | Coastal upwelling | Environmental changes | Latitude | Oceanography | Oceanic analysis | Design | Variables | El Nino | Sustainability | Tropical environment | Intertropical convergence zone | Emergency preparedness | Convergence zones | Upper ocean | Ocean circulation | Volume transport | Western boundary currents | Air-sea interaction | Climatic changes | Drifters | El Nino phenomena | Governance | Diurnal | Water temperature | Climate prediction | Floats | Climate change | Biogeochemistry | Boundary currents | Diurnal variations | Air sampling | Data collection | Upwelling | Stakeholders
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Loading RightsJournal of Marine Systems, ISSN 0924-7963, 12/2018, Volume 188, pp. 3 - 16
The influence of climate variability on Eastern Boundary Upwelling Ecosystems (EBUEs) is evident through changes in productivity and shifts in species'...
South Atlantic high pressure system | Ekman transport | Benguela upwelling system | Upwelling indices | COAST | BARRIER | CLIMATE-CHANGE | SOUTHERN BENGUELA | INTENSIFICATION | TRENDS | ALGOA BAY | GEOSCIENCES, MULTIDISCIPLINARY | SARDINE | COLLAPSE | MARINE & FRESHWATER BIOLOGY | OCEANOGRAPHY | OCEAN WINDS | Environmental aspects | Comparative analysis | Ecosystems
South Atlantic high pressure system | Ekman transport | Benguela upwelling system | Upwelling indices | COAST | BARRIER | CLIMATE-CHANGE | SOUTHERN BENGUELA | INTENSIFICATION | TRENDS | ALGOA BAY | GEOSCIENCES, MULTIDISCIPLINARY | SARDINE | COLLAPSE | MARINE & FRESHWATER BIOLOGY | OCEANOGRAPHY | OCEAN WINDS | Environmental aspects | Comparative analysis | Ecosystems
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Loading RightsClimate Dynamics, ISSN 0930-7575, 10/2016, Volume 47, Issue 7, pp. 2309 - 2330
Satellite observations and a high-resolution regional ocean–atmosphere coupled model are used to study the air/sea interactions at the oceanic mesoscale in the...
Climatology | Regional coupled modeling | Earth Sciences | Ocean–atmosphere interactions | Mesoscale SST–wind stress coupling | Eastern Boundary Upwelling System | Geophysics/Geodesy | Oceanography | VERTICAL DIFFUSION | EASTERN EQUATORIAL PACIFIC | LOWER TROPOSPHERE | Ocean-atmosphere interactions | ATMOSPHERIC BOUNDARY-LAYER | SOUTHEAST PACIFIC | Mesoscale SST-wind stress coupling | GULF-STREAM | SATELLITE-OBSERVATIONS | SEA-SURFACE-TEMPERATURE | TROPICAL PACIFIC | METEOROLOGY & ATMOSPHERIC SCIENCES | NUMERICAL-SIMULATION | Wind | Stress analysis | Mesoscale convective complexes | Seasons | Sciences of the Universe | Ocean, Atmosphere
Climatology | Regional coupled modeling | Earth Sciences | Ocean–atmosphere interactions | Mesoscale SST–wind stress coupling | Eastern Boundary Upwelling System | Geophysics/Geodesy | Oceanography | VERTICAL DIFFUSION | EASTERN EQUATORIAL PACIFIC | LOWER TROPOSPHERE | Ocean-atmosphere interactions | ATMOSPHERIC BOUNDARY-LAYER | SOUTHEAST PACIFIC | Mesoscale SST-wind stress coupling | GULF-STREAM | SATELLITE-OBSERVATIONS | SEA-SURFACE-TEMPERATURE | TROPICAL PACIFIC | METEOROLOGY & ATMOSPHERIC SCIENCES | NUMERICAL-SIMULATION | Wind | Stress analysis | Mesoscale convective complexes | Seasons | Sciences of the Universe | Ocean, Atmosphere
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