Abstract
The fake below-ground meridional wind (FBGMW) exists in reanalysis products which is not present in the real atmosphere and should be removed before calculating the mass stream function (MSF). In this study, the impacts of FBGMW on Hadley circulation (HC) in terms of climatology, interannual variability, and long-term trends were investigated using five reanalysis data sets based on three different computing methods. Generally, the impacts of FBGMW on the HC are most notable, although the absolute magnitude of the FBGMW is rather small. The key finding of this study is that the FBGMW has vital influences on the Northern Hemisphere (NH) HC during boreal summer. This is because the NH HC during boreal summer is very weak; the errors of the MSF caused by not considering FBGMW have more obvious influences on the NH HC during boreal summer than that in other months. The previous analysis without considering FBGMW led to overestimation of the poleward expansion of the NH HC during boreal summer, and the long-term trends of the HC should be more accurately estimated after considering the FBGMW. This finding suggests that the previous studies related to the NH HC during boreal summer without considering FBGMW should be reconsidered.
Highlights
The differential solar heating of Earth’s surface between the tropics and extratropics results in Hadley circulation (HC) which is characterized by warm air rising over equatorial areas and cool air sinking over the subtropics in both hemispheres [1,2]
We aimed to investigate the impact of fake below-ground meridional wind (FBGMW) on HC in terms of climatology, interannual variability, and long-term trends, and the following two main concerns were investigated: (1) Does FBGMW have an impact on HC in all months and hemispheres?
Based on M2 and not considering FBGMW led to underestimation of the Northern Hemisphere (NH) HC intensity (HCI) from January to June and had a small impact on the NH HCI in other months and on the SH HCI in all months
Summary
The differential solar heating of Earth’s surface between the tropics and extratropics results in Hadley circulation (HC) which is characterized by warm air rising over equatorial areas and cool air sinking over the subtropics in both hemispheres [1,2]. HC plays an important role in the transport and exchange of energy, mass, angular momentum, water vapor, and other variables between low and middle–high latitudes. Various studies claimed that HC has strengthened in recent decades [6,7,8,9,10,11]. Chen et al [6] and Wielicki et al [11] suggested an increase in the outgoing longwave radiation (OLR) in subtropical areas, demonstrating a strengthening of the tropical overturning circulations, HC. Several widely used reanalysis data sets and observations have shown an obvious strengthening trend of the boreal winter HC [4,7,12,13], while
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