2013
DOI: 10.1002/jgre.20016
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Characterization of middle‐atmosphere polar warming at Mars

Abstract: [1] We characterize middle-atmosphere polar warming (PW) using nearly three Martian years of temperature observations by the Mars Climate Sounder. We report the observed structure of PW and share hypotheses as to possible explanations, which have yet to be tested with global dynamical models. In the data, PW manifested between p = 15 Pa and p = 4.8Â10 -3 Pa. The latitude where PW maximized shifted poleward with decreasing pressure. The nightside magnitude was larger than the dayside magnitude. The maximum nigh… Show more

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Cited by 19 publications
(19 citation statements)
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“…The difference between the first and second runs is shown in the same figure with color shades, accounting for subgrid‐scale GWs results in spectacular changes. Below the mesopause, GWs enhance the polar temperatures, in particular, around winter seasons (known as the “winter polar warmings”) by up to 15 K. These results are in a good agreement with the recently published characteristics of the middle‐atmosphere polar warmings based on the MCS‐MRO measurements [ McDunn et al , ]. Above the mesopause, GWs induce coolings by up to 45 K. We have already presented similar results from our simulations for the perpetual solstice at L s =270° [ Medvedev and Yiğit , , Figure 1c].…”
Section: Seasonal Cycle For the Low Dust Conditionssupporting
confidence: 91%
“…The difference between the first and second runs is shown in the same figure with color shades, accounting for subgrid‐scale GWs results in spectacular changes. Below the mesopause, GWs enhance the polar temperatures, in particular, around winter seasons (known as the “winter polar warmings”) by up to 15 K. These results are in a good agreement with the recently published characteristics of the middle‐atmosphere polar warmings based on the MCS‐MRO measurements [ McDunn et al , ]. Above the mesopause, GWs induce coolings by up to 45 K. We have already presented similar results from our simulations for the perpetual solstice at L s =270° [ Medvedev and Yiğit , , Figure 1c].…”
Section: Seasonal Cycle For the Low Dust Conditionssupporting
confidence: 91%
“…Such numerical schemes could provide enhanced meridional flows in response to retarded zonal winds in the middle atmosphere. Subsequently, a more realistic lower atmosphere temperature structure may result, consistent with observed polar warming features during MY30 [ McCleese , ; McDunn et al , ].…”
Section: Mars Gitm Simulation Results and Comparisons With Data Setsmentioning
confidence: 72%
“…However, climatological constraints for this atmospheric region are needed to validate the M‐GITM simulated temperature structure. The MRO Mars Climate Sounder (MCS) instrument has been operating nearly continuously since September 2006, spanning more than four Martian years (MY = 28–31) [e.g., McCleese , ; Kleinböhl et al , ; McDunn et al , ]. Hence, MCS retrieved (version 4.0) temperatures (∼0–90 km) are utilized (as a function of season, latitude, and local time) to provide constraints for validating the basic features of the M‐GITM temperature structure below ∼80–90 km.…”
Section: Brief Review Of Mars Spacecraft Data Sets: Key Constraintsmentioning
confidence: 99%
“…The winter “polar jet” tilts toward the pole with height, with maximum winds at each level occurring around 50°N at 5 hPa but occurring poleward of 70°N above 0.01 hPa. In the upper atmosphere (pressure around 0.01 hPa) there is a reversal of the meridional temperature gradient with higher temperatures occurring at the north pole, corresponding to the so‐called “polar warming” [e.g., McDunn et al ., ].…”
Section: Zonal‐mean Fieldsmentioning
confidence: 99%