Constant Pressure Charts: Thickness

While typically plotted on surface charts, the 'thickness' contours are derived from constant pressure charts. Thickness is the measurement of the distance (in meters) between any two constant pressure surfaces.

One of the most common thickness charts used in meteorology is the 1000-500 mb thickness. This is the distance between the elevation of the 1,000 mb and 500 mb levels.

Typically, we use the 1,000 mb surface to represent sea level but that is a generalization. The 1,000 mb surface varies in elevation just like any other pressure elevation.

In fact, the 1,000 mb surface will often be below ground (or sea) level. The 1000-500 thickness values takes that into consideration by estimating the elevation of the 1000 mb level.

As in the case of the 500 mb constant pressure chart, the last digit (zero) is truncated. So a 1000-500 thickness chart value of 570 means the distance between the two surfaces is 5,700 meters. The contours are drawn in 60-meter increments.

Fronts

These thickness values are directly related to air density and temperature. The colder the air, the more dense the air becomes and the distance between any two hight levels also decreases. Conversely, warmer air is less dense and therefore the distance between any two height levels increases.

Because of this, thickness charts are use to help identify fronts and boundaries between air masses. Since air temperatures almost always fall behind cold fronts, thickness contours can become bunched together on the cold air side of the front. This is called packing, and a meteorologist mayd say the thickness lines are "packed"

A word of caution. There is no hard and fast thumb rule for determining fronts using thickness contours. Careful analysis, using multiple sources of information, is needed to identify their locations.

The tight packing of the thickness contours indicate the location of frontal boundaries with the fronts usually at the leading warm side of the packing.
In the example below (bottom of page), there is a packing of thickness lines In Oklahoma and Texas. Turning the surface weather overlay on reveals precipitation in eastern Oklahoma and Texas well ahead of the cold front.

Based upon the isobars, the front is located along the Colorado/Kansas border extending south into the panhandle of Texas. The precipitation in east Oklahoma and Texas is from a dryline moving east ahead of the front.

A tighter packing of thickness lines is located in Canada south of Hudson's Bay. The warm front's location, indicated by the isobars, clearly demarks the colder air to the north of the warm front as opposed to the south side of the boundary.

Rain/Snow Line

The 1000-500 mb thickness value of 540 (5,400 meters) is the traditional line to determine rain verses snow. The 540 contour closely follows the surface freezing temperature (32°F/0°C).

The 540 thickness line (5,400 meters deep) is approximately the point where precipitation changes from liquid to frozen or vice versa.
If precipitation is expected for locations poleward of the 540 thickness line, the rule of thumb is to predict snow.

If on the equator side of this line then the precipitation would be liquid. In the example below, the 540 (and lower) thickness lines are colored blue and 546 (and higher) thickness lines and greater are colored red.

As with everything else in meteorology there are always exceptions, especially with seasons and terrain. But the 540 thickness line is a good first guess for determining rain verses snow.

Gustiness of Wind

The wind speed is governed by pressure differences (pressure gradients) which are indicated on surface charts by isobars.

Wind speeds are higher when the distance between isobars decreases.

There is usually some variation in speed even in steady wind. That variation, or gustiness, increases based upon the angle at which thickness contours cross isobars.

Thickness lines that cross isobars at right angles indicate the most gusty winds. As the angle decreases so does the wind's gustiness.

In the example (right), at #1, the dashed thickness lines cross the solid isobars at right angles. At #2 the thickness lines and isobars cross each other at much more shallow angles. Therefore the gustiness of the wind at #1 is greater than at #2.

Map of the North America
500 mb heights
500-1000 thickness values
Isobars
Surface weather in relation to the constant pressure chart.