6.3: High and Low Pressure Systems

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Areas of high and low pressure

Once isobars are plotted on a weather map, they can be used to identify pressure patterns, and the locations of high and low pressure systems. For example, if the isobars form a "bulls eye" pattern, the center of that bulls eye is a pressure system. If the isobar values are decreasing as you approach the center of the pressure system, thenit represents a low pressure system, while a bullseye with increasing values as you approach the center represents an area of high pressure. Figure 6.3.1 is a weather map, with isobars plotted on it, and high and low pressure systems computer-generated onto it. This map is for 0100UTC on July 20, 2020.

Isobar Map of Sea Level Air Pressures. Additional Details in Caption. — Figure \(\PageIndex{1}\): Sea Level Air Pressures at 0100UTC on July 20, 2020. (CC BY-NC 4.0; American Meteorological Society via Unidata) Alternative description of image.

This map is a more real-world presentation of air pressure, compared to Figure 6.2.1, which was simplified.

For example, while isobars are plotted for every 4mb, recorded sea level air pressures (the numbers) are also displayed for values in-between two isobars. Such a location is San Francisco, which is reporting an air pressure of:
1. 1013mb
2. 1015mb
3. 1017mb
4. 1019mb.

Areas of Low Pressure are often associated with stormier weather while areas of High pressure are associated with fair-to-clear weather conditions.

From Figure 6.3.1, Which of these regions should expect stormy weather?
1. The Pacific Northwest (Oregon and Washington)
2. The New Mexico/Colorado State Line
3. The California/Arizona State Line
4. All of these regions

Figure 6.3.2 is a full weather analysis of the US at the same time as Figure 6.3.1. This includes, isobars, fronts, station data, and precipitation.

Surface Analysis of United States. Additional Details in Caption — Figure \(\PageIndex{2}\): Surface Weather conditions for the entire US at 0100 UTC on July 20, 2020. (CC BY-NC 4.0; American Meteorological Society via Unidata). Alternative description of image

One of the big caveats with solely using high/low pressure systems to diagnose weather conditions is that they are only one factor that can influence the presence of stormy weather. Other factors, such as moisture availability (in the case of the Thermal Low Pressure over the CA/AZ border), Frontal Systems (such as the long cold front extending across Indiana, Illinois, and Missouri), Troughs (the dashed brown lines), Mountains (such as over New Mexico and Colorado), and even the time of year can greatly influence the ability of a pressure system to produce stormy weather. We will begin investigating these large-scale weather patterns in Investigations 7 and 8.

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