8.4: Convergence, Divergence, and Jet Streaks

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Jet Streaks

The upper-level flow aloft (in the upper troposphere) can have significant consequences for surface weather conditions. A key example of this is when Convergence and Divergence are present in the upper atmosphere. Think of the Jet Stream as a river, and the height lines on a 300 mb map are like the edges of the river. As you’re flowing along the river, if the river becomes more narrow (the height lines move closer together), the water has to “bunch up” as it enters the narrow channel. This is called Convergence, and it occurs when air is squeezed together (Figure 8.4.1). This forces the wind to blow faster. Now, suppose the channel widens again (the lines spread out), allowing water to spread back out as it exits the narrow channel. This is known as Divergence (Figure 8.4.1). In a future investigation, we will examine the effects of convergence and divergence on surface weather conditions. Indeed, they are actually a key component of what is called cyclogenesis, which is the formation and evolution of mid-latitude weather systems and cyclones.

Convergence and Divergence. Additional details in caption. — Figure \(\PageIndex{1}\): A diagram of Convergence/Divergence. The solid lines are height lines, similar to other upper-air maps, while the dashed line represents the axis of a trough or ridge. (Public Domain; Alicia Mullens) Alternative description of image.

When air converges, the winds move faster, and when air diverges, the winds slow down. We can identify the edges of converging and diverging air by identifying areas of maximum fast winds, or Jet Streaks. Figure 8.4.2 shows a simplified example of isotachs (dotted lines of constant wind speed), and how to identify Jet Streaks.

A jet streak identified on isotachs. Additional details in caption. — Figure \(\PageIndex{2}\): A Simplified Diagram of Isotachs (dashed lines), and the location of a jet streak... a bullseye where the strongest winds are present. (Public Domain; Alicia Mullens) Alternate description of image.

The last three questions for this investigation are based on Figure 8.4.3, which is a 300 mb map created using weather data collected at 1200 UTC on March 13, 2018.

300mb heights and isotachs. Additional details in caption. — Figure \(\PageIndex{3}\): 300 mb map for the United States at 1200 UTC on March 13, 2018. (CC BY-NC 4.0; American Meteorological Society via Unidata). Alternative description of image.

The pattern in Figure 8.4.3 is marked by:
1. Zonal Flow across the entire United States
2. A Large Trough of the US East Coast
3. A sizeable Ridge on the US West Coast
4. All of these features except for a
For the Eastern Trough, A “bullseye” of higher isotach values indicates
1. A calm area of winds
2. A Jet Streak
Such areas are present
1. Over Northern New York and Southern Canada
2. Over Indiana and Ohio
3. Over Kansas and Nebraska

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