Ocean - Oceanic Climate Variables
This page describes some of the 50 Essential Climate Variables identified by the Global Climate Observing System (GCOS) for worldwide monitoring. Panels of experts at GCOS helped identify which climate observations should be made on an ongoing basis, and agreed upon principles and guidelines for the best ways to make them.
Surface Ocean Variables
Sea Surface Temperature
Sea Surface Temperature (SST) is defined as the skin temperature (top 2 mm) of the ocean. Historically, ships measured sea surface temperature directly, and later, buoys were fitted with thermometers to check the temperature of surface waters. Instruments on satellites now remotely measure SST for the whole world every day.
More information: Sea Surface Temperature - NASA
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Ocean Color
The presence of microscopic algae (phytoplankton) can have a strong influence on the color of the ocean. When populations of floating phytoplankton have the right combination of nutrients, sunlight, and water temperatures, the number of individuals can expand very quickly. These population explosions can result in "blooms" of phytoplankton large enough to be visible from space. Suspended sediments and solutions of dissolved materials can also affect ocean color. Instruments on satellites measure ocean color from space.
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Phytoplankton
Phytoplankton are tiny plants (algae) that float freely in the ocean. They are often accompanied by zooplankton, or microscopic animals. These microscopic organisms form the base of the global oceanic food chain. Through photosynthesis, scientists estimate that marine phytoplankton produce about half of the world's oxygen. Scientists measure phytoplankton abundance by straining marine water samples through very fine mesh nets.
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Sea State
Sea state is the general condition of the sea with respect to the wind, swell, and waves at a given time and location. Skilled observers, instruments on ocean buoys, or satellite instruments can measure sea state. The Douglas Sea Scale is the 10-point classification system for sea state.
More information:
- Sea State (Wikipedia)
- Moorings and Buoys
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Sea Ice
Sea ice is frozen seawater that forms at the ocean's surface in the polar regions. As salty ocean water freezes, some of the salt is expelled, and the brine below it becomes saltier and more dense. Sea ice extent is defined as the area where at least 15% of the surface is covered with ice. Sea ice extent changes with the seasons in both hemispheres. Satellite instruments measure sea ice extent. Submarines and remotely operated vehicles are used to monitor the thickness of sea ice.
More information: Sea Ice monitoring - NOAA
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Sea Level
Sea Level is one of the primary indicators of global climate change. Changes in how high the ocean's surface is reflect a net change in ocean volume due to melting of glaciers and ice sheets and thermal expansion. Local sea level observations from tidal gauges affixed to land take any vertical land motion into account when calculating changes in sea level. Coastal sea level change is a major driver of societal impacts of climate change.
View data from tide gauges from NOAA's Tides and Currents site »
Sea Surface Salinity
Ocean salinity is the mass of salt per unit volume of water: it is normally reported in units of grams of salt per 1000 grams of water. Changes in salinity are due to variations in the rate of evaporation and amount of precipitation over the ocean. River runoff and ice melt also influence ocean salinity by adding fresh water. Salinity affects the density of seawater and therefore, along with temperature, is a major controller of ocean circulation. Historically, ships gathered samples of water to measure salinity, or instruments on buoys measured salinity by passing a current through the water. Now, instruments on satellites can measure salinity remotely.
More information: Sea Surface Salinity - NASA
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Sea Surface Height
Just as Earth's land has high and low areas, the surface of the sea is not flat either. Factors that cause "hills and valleys" on the ocean's surface include gravity, tides, ocean temperatures, winds, and currents. Satellite instruments use sophisticated mathematical equations to make precise measurements of the height of the sea's surface. Monitoring sea surface height is useful for understanding weather and climate phenomena such as El Niño events.
More information: Sea Surface Height - NASA
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Ocean Currents
Water in the ocean is constantly in motion from waves, tides, and currents. Ocean currents are the result of winds, density differences, and and the rotation of planet. The simplest method of measuring a surface ocean current is to use a float and record the time it takes to travel a given distance. Today, instruments on drifting and anchored buoys, as well as devices such as current meters, measure the speed of ocean currents. Satellite instruments are also used to measure the motion of the ocean.
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Sub-Surface Ocean Variables
Temperature, Ocean Heat Content and Flux, CO2, Winds, Currents, Sea Level, Sea Ice Extent
The global ocean has an enormous capacity to store and distribute heat around the planet. The high heat capacity of water helps to moderate swings in our climate on both long- and short-term time scales. Differences in temperature and density of water in the deep ocean are two key properties driving ocean currents. Sub-surface ocean temperature, salinity, and stored CO2 can affect the health of ecosystems and fisheries. Drifters, moored ocean buoys, and instruments on ships are the primary methods used to track changes in sub-surface ocean temperatures.
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