TropopauseEstimate¶
This obsfunction creates a first-guess estimate of the tropopause pressure that is based on latitude with
some adjustment for day-of-year. An optional parameter can convert the final answer from pressure to
height using convert_p2z: true
. The code in this method is crude and purely designed for estimating
the tropopause when lacking a model-derived estimate that may otherwise arrive via GeoVaLs.
To begin, the code assumes an equatorial belt of 15 degrees north and south of the equator then applyies a linear transition toward the poles starting from 130 hPa and lowering to 370 hPa. To account for the seasons, the so-called equator is shifted to be about one month delayed from actual solar solstice to mimic that July (January) is typically hotter and has a corresponding higher tropopause than June (December) in the northern (southern) hemisphere.
Options¶
convert_p2z: true
will use an ultra simple approximation of ICAO standard atmosphere from pressure
to height because the code is making a tropopause estimate only.
tropo_equator
is used to specify the pressure of the tropopause in the equatorial belt.
tropo_pole
is used to specify the pressure of the tropopause at the poles.
Example 1¶
The most useful example of this obsfunction is to reject satellite-derived atmospheric motion vectors (satwinds) data when their vertical level information implies they exist well above the tropopause since clouds (which are tracked to provide a motion vector) are not likely to occur in the clear air of the stratosphere. This is handled by a Difference Check
filter in which the MetaData/pressure
is more than some threshold lower (higher altitude) than the supposed tropopause.
- filter: Difference Check
filter variables:
- name: windEastward
- name: windNorthward
reference: ObsFunction/TropopauseEstimate
options:
- tropo_equator: 13000 # 130 hPa
- tropo_pole: 37000 # 370 hPa
value: MetaData/pressure
minvalue: -5000 # 50 hPa above tropopause level, negative p-diff
Example 2¶
Another possible usage for this obsfunction is to inflate the observational error of water vapor (specificHumidity
) or satellite radiance data when above the tropopause where clouds are nearly impossible to form.