Satellite presentation of super typhoons vs Atlantic Cat 5s

[HurricaneEdouard]

So, here's one thing I've noticed and was very curious for an opinion on re. reasons why. It seems to me that Category 5 super typhoons often share a distinctive shape, with intense banding to the west and south, yet not so much to the north and east. The CDO is symmetrical, but the entire cloud coverage seems elongated north-south.

A few examples below:











Most Category 5 hurricanes in the Atlantic do not share this appearance. The only one I could plausibly mistake for being a WPac Category 5 would be Gilbert. Otherwise, they tend to have a very different 'look,' although it's hard to pin down what's different in general simply due to the amount of variety in Cat 5 satellite presentation compared to super typhoons.





But all I can say is that, if I were showed satellite images of the above without knowing them to be Atlantic storms, I would tend to identify them as Atlantic (or east Pacific) hurricanes, not super typhoons. Is there actually some truth to this observation? And if so, does anyone know why super typhoons often gravitate towards a certain 'shape,' an appearance markedly lacking in Atlantic and east Pacific systems of similar intensity?

[euro6208]

Really interesting topic but no response?

I would love to learn more...

[tatertawt24]

There's definitely a look that classic WPAC typhoons have. But, in addition to Gilbert, I always thought Rita resembled that look a little:



Large in size, a small but not pinhole eye, and strong bands on the south side. Dean looked pretty solid too. Maybe it has something to do with the direction they're moving in?

[MiamiensisWx]

You're largely asking questions of geography. Because the Pacific Ocean is so much larger than the Atlantic, there is a larger area of higher heat content offering more potential for release of latent heat, leading to lower environmental pressures and hence storms with larger circulations than are usually observed in the Atlantic. Western Pacific typhoons often form within a broad monsoonal trough with larger areas of instability, so even when typhoons develop a tight inner core, their circulation can be quite large, and after eyewall replacement cycles, their pressures can be much deeper than in the Atlantic due to surrounding low environmental pressures. Due to higher instability, Western Pacific typhoons typically develop larger central dense overcasts (CDOs) with a broader area of extremely cold cloud tops than are often observed in Atlantic storms. Therefore, Western Pacific typhoons have a higher ceiling under which to become more intense than even the most intense Atlantic hurricanes (at least in terms of minimum central pressure). However, there is a decent likelihood that Atlantic hurricanes and Pacific typhoons are equally capable of attaining extreme maximum sustained wind speeds, for higher environmental pressures in the Atlantic compensate for lower instability and often produce small but very powerful hurricanes, e.g., the 1932 Puerto Rican and Texas hurricanes, the 1935 Labor Day hurricane, Janet 1955, Carol 1953, Andrew 1992, Charley 2004, etc. Although Gilbert 1988 was an exception in that it had a large, typhoon-like circulation, its inner core was quite small, as was Wilma's, hence each storm's peak winds of 160 kt/185 mph.

[euro6208]

WPAC storms have a larger area to work with with small islands in their path with a huge area of hot sst's...