The Hadley cell significantly influences global desert patterns, creating desert zones around 30° north and south of the equator, exemplified by the Sahara, Kalahari, Namib, and Atacama deserts. However, local geography, including mountains, water bodies, and ocean currents, also plays a crucial role in moisture distribution, leading to variations in desert characteristics. The discussion highlights the oversimplification of attributing desert formation solely to the Hadley cell, emphasizing the need for a more nuanced understanding of climatic factors. The conversation critiques the reliability of Wikipedia as a source for complex climatic explanations.
PREREQUISITESClimatologists, geographers, environmental scientists, and anyone interested in understanding the complexities of desert formation and climate dynamics.
So why is it not Sahara-like desert all the way across the continent, and all the way from the southern tip to about 15 degrees south? Wikipedia says the Kalahari is not even true desert, but savanna because it gets too much rain. And the Namib covers only a tiny area.TeethWhitener said:There is. In Africa, it's where you find the Kalahari and the Namib deserts. In Australia, it's where you find the Outback, and in South America, it's where you find the Atacama (though the Atacama is a bit of an anomaly because of the presence of the Andes mountains).
https://en.wikipedia.org/wiki/Desert_climate
Notice the two bands at roughly 30° north and south of the equator.
physicsponderer said:So why is it not Sahara-like desert all the way across the continent, and all the way from the southern tip to about 15 degrees south?
Then it is all those things plus the Hadley cell that causes the Sahara, not simply the Hadley cell. But I read (in Wikipedia) that it was caused by the Hadley cell, full stop, which is an oversimplification, surely?DaveC426913 said:Because Hadley cells are not the only thing that affects climate.
Local geography of continents, mountains, water bodies and ocean currents - as well as cyclic and non-cyclic temperature changes - all play a major factor in how moisture is brought to an area.
No, of course, not. My point is that Wikipedia should not have said simply that the Hadley cell causes the Sahara desert. It should have said something like, "The Hadley cell is thought to have played a part in the formation of the Sahara Desert."Vanadium 50 said:Do you think the only thing that affects weather is latitude?
physicsponderer said:But I read (in Wikipedia) that it was caused by the Hadley cell, full stop
As I recall, it was the one called Hadley cell.Vanadium 50 said:Which article?
A big problem is that it easy to edit it yourself to support your point and then use it as reference.DaveC426913 said:An excellent exemplar of why Wikipedia is not considered a reputable source, here on PF.
physicsponderer said:As I recall, it was the one called Hadley cell.
I read it in Wikipedia a few months ago, as I recall.Vanadium 50 said:"As I recall" is kind of bad. This is "I read somewhere".
If you don't tell us where you read something, we can't look at it and determine if it is wrong or if you misunderstood. It wastes our time, and you get a less good answer. Everybody loses.
That article does not have the word "Sahara" in it, not now, and not in the last half-dozen or so revisions.
I guess I wanted to see a convincing argument that the Sahara is caused by the Hadley cells, or find out that there isn't such an argument. It seems widely accepted that the Sahara is caused that way, but Wikipedia didn't explain why the Sahara was so much bigger than the Namib. I was also wondering just how idealized the idea of the Hadley cell is.lomidrevo said:So what is this thread about? Complaining about quality of information at wiki pages? Some articles are very detailed and accurate others aro not, it's not a secret. When you require more detailed explanation, why don't you search other resources? Just google can provide hundreds of relevant links, many of them with edu, org or gov top-level domains.
Thanks for the informative post.snorkack said:Note that Hadley cell creates discontinuous rings of deserts on both hemispheres:
That second chart is measuring velocity of vertical movement of air. While that has a correlation with Hadley cell movement, no perfunctory glance at such a map could reasonably result in an assessment of how it differs from ideal.physicsponderer said:Thanks for the informative post.
How does the Hadley cell differ from the idealized representation one normally sees. E.g. the diagram in Wikipedia:
https://en.wikipedia.org/wiki/Hadley_cell#/media/File:Earth_Global_Circulation_-_en.svg
This chart seems to suggest it differs a lot:
https://en.wikipedia.org/wiki/Hadley_cell#/media/File:Omega-500-july-era40-1979.png
Agreed. And that chart was probably chosen because it illustrates the Hadley cell theory relatively well. Other charts are likely even more doubt-producing.DaveC426913 said:That second chart is measuring velocity of vertical movement of air. While that has a correlation with Hadley cell movement, no perfunctory glance at such a map could reasonably result in an assessment of how it differs from ideal.
Polar cell is actually there, if you notice.physicsponderer said:This chart seems to suggest it differs a lot:
https://en.wikipedia.org/wiki/Hadley_cell#/media/File:Omega-500-july-era40-1979.png
And why is there no sign at all, or almost no sign of, the Ferrel cells and Polar cells? Are the latter even more idealized? Kudos to Wikipedia for the latter chart if it is accurate, because it gives some indication, I think, of how much of an idealization the former chart is.
It didn't occur to me that those small patches, 15 degrees away (which seems rather far) from the pole in each case could be all that is seen of the polar cells. I was looking for a more or less complete ring around each pole. Sobering.snorkack said:Polar cell is actually there, if you notice.
Look at the lower edge. The bright yellow spot over Antarctic.
And then look at the contrast... very little polar cell in North. A small pink patch... on Greenland, not a coincidence.
It is July - Northern summer, Southern winter. The polar cells are seasonal. Northern polar cell nearly shuts down in polar summer, with a small remnant over Greenland ice sheet, but the Southern polar cell is in full power in polar winter.
I see no such caption associated with any images on that page.physicsponderer said:This photograph:
https://en.wikipedia.org/wiki/File:The_Earth_seen_from_Apollo_17.jpg
is captioned :'Cloud formations in a famous image of Earth from Apollo 17 makes atmospheric circulation directly visible'
You are correct. My apologies. You can see the photo with the caption if you scroll down on this page:DaveC426913 said:I see no such caption associated with any images on that page.
I see this:
"The Blue Marble" is a famous photograph of the Earth taken on December 7, 1972, by the crew of the Apollo 17 spacecraft en route to the Moon at a distance of about 29,000 kilometres (18,000 mi). It shows Africa, Antarctica, and the Arabian Peninsula.
OK. Atmospheric circulation is pretty directly evident in that pic. Do you not think so?physicsponderer said:You are correct. My apologies. You can see the photo with the caption if you scroll down on this page:
https://en.wikipedia.org/wiki/Hadley_cell . I have edited the post accordingly. Thanks for pointing that out.
It's not evident to me. Would you care to explain it?DaveC426913 said:OK. Atmospheric circulation is pretty directly evident in that pic. Do you not think so?