this post was submitted on 14 Sep 2024
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Looking at https://zoom.earth/maps/pressure/

Given the much lower temperatures at the poles, I would expect the pressure to be (much) higher.

I'm reading here and there that air pressure at the antarctic is low because of its high altitude, but these maps show (I presume?) MSLP?

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[โ€“] [email protected] 1 points 1 month ago (1 children)

But clearly, on a global scale, the opposite is true? As in, for example, the ITCZ is located at the subsolar point, where the planet receives the most irradiation, and this is an area of low pressure (and convection)? High temperatures -> low pressure.

[โ€“] [email protected] 1 points 1 month ago

The ITCZ is an interesting case to use here! You're right that it's the thermal equator and has low pressure, but you've gotta consider convection and wind direction too (i.e. the whole Hadley cell). Convection (caused by solar heating) causes low pressure too, and pressure is often relative.

When you're thinking about stuff on a global scale you've always gotta consider the global atmospheric circulation

There's a lot of good explanation in the link I sent - it's tricky trying to consider all the variables together, but I would say that variations in density (latitudinally, at least - unless you want to start talking about hydrostatic balance!) doesn't account for the variation in pressure or temperature.