Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection
<p>Much of our understanding of atmospheric circulation comes from relationships between aspects of the circulation and the mean state of the atmosphere. In particular, the concept of mean available potential energy (MAPE) has been used previously to relate the strength of the extratropical st...
Main Authors: | , , |
---|---|
Format: | Article |
Language: | English |
Published: |
Copernicus Publications
2023-04-01
|
Series: | Weather and Climate Dynamics |
Online Access: | https://wcd.copernicus.org/articles/4/361/2023/wcd-4-361-2023.pdf |
_version_ | 1797840307144884224 |
---|---|
author | C. G. Gertler P. A. O'Gorman S. Pfahl |
author_facet | C. G. Gertler P. A. O'Gorman S. Pfahl |
author_sort | C. G. Gertler |
collection | DOAJ |
description | <p>Much of our understanding of atmospheric circulation comes from relationships between aspects of the circulation and the mean state of the atmosphere. In particular, the concept of mean available potential energy (MAPE) has been used previously to relate the strength of the extratropical storm tracks to the zonal-mean temperature and humidity distributions. Here, we calculate for the first time the MAPE of the zonally varying (i.e., three-dimensional) time-mean state of the atmosphere including the effects of latent heating. We further calculate a local MAPE by restricting the domain to an assumed eddy size, and we partition this local MAPE into convective and nonconvective components. Local convective MAPE maximizes in the subtropics and midlatitudes, in many cases in regions of the world that are known to have intense convection. Local nonconvective MAPE has a spatial pattern similar to the Eady growth rate, although local nonconvective MAPE has the advantage that it takes into account latent heating. Furthermore, the maximum potential ascent associated with local nonconvective MAPE is related to the frequency of warm conveyor belts (WCBs), which are ascending airstreams in extratropical cyclones with large impacts on weather. This maximum potential ascent can be calculated based only on mean temperature and humidity, and WCBs tend to start in regions of high maximum potential ascent on a given day. These advances in the use of MAPE are expected to be helpful to connect changes in the mean state of the atmosphere, such as under global warming, to changes in important aspects of extratropical circulation.</p> |
first_indexed | 2024-04-09T16:12:49Z |
format | Article |
id | doaj.art-d9d3e7b046b54de6a2151543ddafdd0f |
institution | Directory Open Access Journal |
issn | 2698-4016 |
language | English |
last_indexed | 2024-04-09T16:12:49Z |
publishDate | 2023-04-01 |
publisher | Copernicus Publications |
record_format | Article |
series | Weather and Climate Dynamics |
spelling | doaj.art-d9d3e7b046b54de6a2151543ddafdd0f2023-04-24T08:48:09ZengCopernicus PublicationsWeather and Climate Dynamics2698-40162023-04-01436137910.5194/wcd-4-361-2023Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convectionC. G. Gertler0P. A. O'Gorman1S. Pfahl2Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USADepartment of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USAInstitute of Meteorology, Freie Universität Berlin, 12165 Berlin, Germany<p>Much of our understanding of atmospheric circulation comes from relationships between aspects of the circulation and the mean state of the atmosphere. In particular, the concept of mean available potential energy (MAPE) has been used previously to relate the strength of the extratropical storm tracks to the zonal-mean temperature and humidity distributions. Here, we calculate for the first time the MAPE of the zonally varying (i.e., three-dimensional) time-mean state of the atmosphere including the effects of latent heating. We further calculate a local MAPE by restricting the domain to an assumed eddy size, and we partition this local MAPE into convective and nonconvective components. Local convective MAPE maximizes in the subtropics and midlatitudes, in many cases in regions of the world that are known to have intense convection. Local nonconvective MAPE has a spatial pattern similar to the Eady growth rate, although local nonconvective MAPE has the advantage that it takes into account latent heating. Furthermore, the maximum potential ascent associated with local nonconvective MAPE is related to the frequency of warm conveyor belts (WCBs), which are ascending airstreams in extratropical cyclones with large impacts on weather. This maximum potential ascent can be calculated based only on mean temperature and humidity, and WCBs tend to start in regions of high maximum potential ascent on a given day. These advances in the use of MAPE are expected to be helpful to connect changes in the mean state of the atmosphere, such as under global warming, to changes in important aspects of extratropical circulation.</p>https://wcd.copernicus.org/articles/4/361/2023/wcd-4-361-2023.pdf |
spellingShingle | C. G. Gertler P. A. O'Gorman S. Pfahl Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection Weather and Climate Dynamics |
title | Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection |
title_full | Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection |
title_fullStr | Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection |
title_full_unstemmed | Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection |
title_short | Moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection |
title_sort | moist available potential energy of the mean state of the atmosphere and the thermodynamic potential for warm conveyor belts and convection |
url | https://wcd.copernicus.org/articles/4/361/2023/wcd-4-361-2023.pdf |
work_keys_str_mv | AT cggertler moistavailablepotentialenergyofthemeanstateoftheatmosphereandthethermodynamicpotentialforwarmconveyorbeltsandconvection AT paogorman moistavailablepotentialenergyofthemeanstateoftheatmosphereandthethermodynamicpotentialforwarmconveyorbeltsandconvection AT spfahl moistavailablepotentialenergyofthemeanstateoftheatmosphereandthethermodynamicpotentialforwarmconveyorbeltsandconvection |