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process is important for ventilating the ocean with oxygen. Diapycnal mixing is the movement of water by either upwelling or downwelling. This mixing is occurring vertically, across the isopycnal layer boundaries. These mixing processes are essential for nutrient distribution and the upwelling of cold bottom water. Mixing of waters of the same densities is easier than across densities which is why diapycnal mixing does not occur as frequently as isopycnal mixing
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water, as the depth increases, so does the density; water masses with the highest density are at the bottom and the lowest densities are at the top. Typically, warm freshwater is less dense than cold salty water, thus the colder water will sink below the warmer water. Isopycnals are used to display this vertical distribution of the water. Variations in temperature and salinity along isopycnals can be described with
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Water masses in the ocean are characterized by their properties. Factors such as density, temperature, and salinity can all be used to identify these masses and their origins as well as where they are in the water column. Density plays a large role in stratifying the ocean into layers. In a body of
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can disturb boundaries between the layers, causing them to bend, which causes the isopycnals to appear uneven. These boundaries are known as diapycnals (Talley, 162). The ways in which the isopycnals and diapycnals are transformed can be used by oceanographers to identify the force that caused the
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Isopycnal mixing and diapycnal mixing work together to mix and ventilate the entire ocean. Isopycnal mixing is when surface waters moving into the interior of the ocean typically run horizontally, along the isopycnal layers, settling into their correct density-dependent layer (Talley, 67). This
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on a graph. Isopycnals are often displayed graphically to help visualize "layers" of the water in the ocean or gases in the atmosphere in a similar manner to how
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Talley, Lynne D, Pickard, George L, Emery, William J, Swift, James H, Descriptive
Physical Oceanography An Introduction, Elsevier LTD., 2011
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are layers within the ocean that are stratified based on their densities and can be shown as a line connecting points of a specific
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Line connecting points of a specific density or potential density
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