Minimum depth: Difference between revisions

Latest revision as of 16:10, 6 June 2024

The minimum depth is important for several reasons:

Vertical profilers need about one body length to accelerate to about 80% of their asymptotic speed. Thus, a minimum depth of about two body lengths is recommended.
The hull of the ship used to deploy a vertical profiler may reach several meters and data from less than hull depth should be excluded. While a glider is at the surface, shear probe data has no value.
A minimum depth of 1 to 2 m should be applied to gliders (in dives) to exclude data that are not useful for dissipation rate estimation.

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-The minimum depth is important for several reasons. Vertical profilers need about one body length to accelerate to about 80% of their asymptotic speed. Thus, a minimum depth of about two body lengths is recommended. The hull of the ship used to deploy a vertical profiler may reach several meters and data from less than hull depth should be excluded. While a glider is at the surface, shear probe data has no value. A minimum depth of 1 to 2 m should be applied to gliders (in dives) to exclude data that are not useful for dissipation rate estimation.
+The minimum depth is important for several reasons:
+# Vertical profilers need about one body length to accelerate to about 80% of their asymptotic speed. Thus, a '''minimum depth of about two body lengths is recommended'''.
+# The hull of the ship used to deploy a vertical profiler may reach several meters and data from less than hull depth should be excluded. While a glider is at the surface, shear probe data has no value.
+# '''A minimum depth of 1 to 2 m should be applied to gliders''' (in dives) to exclude data that are not useful for dissipation rate estimation.