6: Temperature, Salinity, and Density

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Heat fluxes, evaporation, rain, river inflow, and freezing and melting of sea ice all influence the distribution of temperature and salinity at the ocean’s surface. Changes in temperature and salinity can increase or decrease the density of water at the surface, which can lead to convection. If water from the surface sinks into the deeper ocean, it retains a distinctive relationship between temperature and salinity which helps oceanographers track the movement of deep water. In addition, temperature, salinity, and pressure are used to calculate density. The distribution of density inside the ocean is directly related to the distribution of horizontal pressure gradients and ocean currents. For all these reasons, we need to know the distribution of temperature, salinity, and density in the ocean.

Before discussing the distribution of temperature and salinity, let’s first define what we mean by the terms, especially salinity.

6.1: Definition of Salinity
Discussion of various definitions of salinity, such as definitions based on chlorinity and conductivity, the Practical Salinity Scale of 1978, and Reference Salinity. Includes equations for calculating these salinities where applicable.
6.2: Definition of Temperature
Definition of the absolute temperature scale in kelvin. Discussion of the thermometers usually used to measure temperatures in the ocean.
6.3: Geographical Distribution of Surface Temperature and Salinity
Geographical distribution of sea surface temperature and salinity. Discussion of zonality (independence from longitude) of these distributions.
6.4: The Oceanic Mixed Layer and Thermocline
The oceanic mixed layer, a thin layer of water with constant temperature and salinity down from the sea surface to a depth where the values differ from those at the surface. The thermocline, the range of depths where the gradient of temperature is greatest.
6.5: Density, Potential Temperature, and Neutral Density
Potential temperature and density for ocean water at depth. Definition of neutral surfaces and density.
6.6: Measurement of Temperature
Discussion of a wide variety of instruments and methods used for measuring temperature in the ocean. How global maps of sea-surface temperature are produced.
6.7: Measurement of Conductivity or Salinity
How conductivity of seawater is used to measure salinity. The accuracy of salinity values measured with this method.
6.8: Measurement of Pressure
Discussion of the different instruments used to measure pressure in the ocean.
6.9: Temperature and Salinity with Depth
Instruments and techniques used to measure temperature, salinity, and pressure as a function of depth.
6.10: Light in the Ocean and Absorption of Light
Behavior of light in the ocean, with discussion of water clarity types. Measurement of ocean color and chlorophyll concentration through satellite imaging.
6.11: Important Concepts
Summary of important concepts from this chapter.

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