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mrbagyo wrote:Potential new world record holder (if validated) for lowest land based barometric pressure reading (and there's a huge gap between this and the currently recognized record holder)
In September 14, 2016, when Typhoon Ferdie was hovering over Itbayat Island, the pressure station recorded a barometric pressure of 868.76 hPa (Sea-level equivalent: 877.91 hPa).Data from: Advanced Sciences and Technology Institute pic.twitter.com/S395oNw1XR -- Joshua C. Agar (@JoshuaCAgar) January 6, 2021
That would be the most intense landfalling tropical cyclone and more so than Super Typhoon Tip.
Makes me wonder if there are tropical cyclones that have central pressure of 850 millibars or lower.
It's just station Pressure. The SLP is higher by about 9 to 10 hPa after conversion therefore it still won't beat Tip.
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The posts in this forum are NOT official forecast and should not be used as such. They are just the opinion of the poster and may or may not be backed by sound meteorological data. They are NOT endorsed by any professional institution or storm2k.org. For official information, please refer to RSMC, NHC and NWS products.
The posts in this forum are NOT official forecast and should not be used as such. They are just the opinion of the poster and may or may not be backed by sound meteorological data. They are NOT endorsed by any professional institution or storm2k.org. For official information, please refer to RSMC, NHC and NWS products.
mrbagyo wrote:Potential new world record holder (if validated) for lowest land based barometric pressure reading (and there's a huge gap between this and the currently recognized record holder)
In September 14, 2016, when Typhoon Ferdie was hovering over Itbayat Island, the pressure station recorded a barometric pressure of 868.76 hPa (Sea-level equivalent: 877.91 hPa).Data from: Advanced Sciences and Technology Institute pic.twitter.com/S395oNw1XR -- Joshua C. Agar (@JoshuaCAgar) January 6, 2021
That would be the most intense landfalling tropical cyclone and more so than Super Typhoon Tip.
Makes me wonder if there are tropical cyclones that have central pressure of 850 millibars or lower.
It's just station Pressure. The SLP is higher by about 9 to 10 hPa after conversion therefore it still won't beat Tip.
Personal Forecast Disclaimer: The posts in this forum are NOT official forecast and should not be used as such. They are just the opinion of the poster and may or may not be backed by sound meteorological data. They are NOT endorsed by any professional institution or storm2k.org. For official information, please refer to RSMC and NWS products.
Typhoon Ida in 1945 might make a case for being more intense than Tip 1979. Ship USS Repose recorded 150kt winds and pressure of 865mb (25.55inHg) when it reportedly got in Ida's eye near Okinawa. https://archive.org/details/USSReposeSc ... ne16450926
Fig 2. The maximum intensity (i.e. lowest central pressure, in hPa) of tropical cyclones in August (when they are most common in the northern hemisphere), according to Emanuel's theory (2). Also plotted are the positions and central pressures of some of the most intense tropical storms ever observed.
Every TC with a pressure recorded at or below 880 mb had the reading taken at or south of 20ºN, with Meranti '16 being the furthest north if the pressure data from Itbayat discussed in this thread is reliable. At the ship's reported latitude, five degrees further north and similar to that of Brownsville or Miami, the deepest pressure recorded I am aware of is from Flo '90, which had an 891 mb drop. While very deep, that is still a huge departure above the alleged Ida '45 pressure. A pressure of 865 mb might not even be possible that far poleward.
The 916 mb pressure in Kyushu is also very deep, the deepest pressure I am aware of that far poleward from a TC, but that isn't quite the outlier reading the 865 mb pressure was. Babe '77 had a 907 mb pressure recorded just a little south of Kyushu in the northern Ryukyus, the deepest pressure recorded in Japan. Further up the coast, Vera '59 maintained a 926 mb pressure a couple degrees further north. Finally, on the other side of the world, Camille '69 deepened to 900 mb at its gulf coast landfall, only a degree or so further south than Ida '45's landfall in Kyushu.
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Wayward meteorology student on a journey back to the promised land.
Japan's recon project was supposed to run from 2017-2020 with 1-2 typhoons to be observed per year, but I have not heard of any more missions after Lan (2017) and Trami.
The most impressive typhoon, Typhoon Tip, became the largest tropical cyclone. Why was is so large? Storms that large are almost always near ex-tropical yet Tip was at its peak when it was its largest. I mean, that storm was absolutely insane.
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I am by no means a professional. DO NOT look at my forecasts for official information or make decisions based on what I post.
Goal: to become a registered expert over tropical and subtropical cyclones.
Pinhole eye, full CDG ring...you don’t get much more Cat 5 than this. If Niran holds this look, there would be an argument for a 155+ kt storm.
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Irene '11Sandy '12Hermine '16May 2018 New England DerechoFay '20Isaias '20
I am neither a meteorology student nor a professional, I'm just a meteorology enthusiast who knows a decent amount about tropical cyclones. Look to the professional mets, the NHC, or your local weather office for the best information.
InfernoFlameCat wrote:The most impressive typhoon, Typhoon Tip, became the largest tropical cyclone. Why was is so large? Storms that large are almost always near ex-tropical yet Tip was at its peak when it was its largest. I mean, that storm was absolutely insane.
I think Tip's origins and intensification environment had a profound effect on its evolution leading up to peak intensity. Tip developed on the eastern end of an active monsoon trough, and at first, it had to share the monsoon trough with Tropical Storm Roger to the west. Roger quickly lifted poleward and out though, giving Tip access to the entirety of the monsoon trough without any competition. In response, the consolidating Tip developed a large circulation. I think this setup is somewhat similar to that of Super Typhoon Lan from 2017, another system that had unrestricted access to the entirety of an active monsoon trough. Given such a large circulation in these two cases, it would take several days with near ideal conditions for the system to properly consolidate. That wasn't an issue for Tip though, which moved slowly and occasionally erratically to the WNW over the warm fertile waters east of Guam. This is in sharp contrast to Lan, which was captured by a passing mid-latitude trough and pulled poleward into the subtropics just before reaching maturity. It took three days for the sprawling circulation of Tip to fully consolidate a core during the period of undisturbed development from October 7th to the 10th, but once complete, it began its first episode of rapid intensification on October 10th. Below, you can see Tip consolidating early in its development phase on October 7th and 8th, respectively.
Something else I think needs further discussion when referring to Tip's size record is how size of tropical cyclones is actually measured. Should size be measured by the radius of tropical storm force winds? Would the radius of the outermost closed isobar be better? How about overall cloud footprint? In the Tip report by Dunnavan & Dieicks, it makes mention on the first page that the oft-cited Tip size record of a 2220 km diameter (radius of 1110 km/600 nm) is measured using the highest/outermost closed isobar of the system. Using the 20th Century v3 data, I arrived at at almost the exact same size for the pressure field. This is a pretty common measurement for tropical cyclones, particularly of that time. However, this is different than the diameter of TS winds, which is perhaps a more common way to convey tropical cyclone size today. In fact, the way the WMO recognizes Tropical Storm Marco from 2008's small size record is by the TS wind radius, creating a notable disconnect between the two records.
That's not to say Tip's size wasn't noteworthy. A correlation definitely exists between the size of the outermost closed isobar and TS wind field in mature TCs. In fact, aircraft recon mission 26 into Tip reported exceptionally large storm and typhoon wind radii when reducing from a 700 mb flight level. However, that record needs to be looked at with a skeptical eye for sure given some of the different ways TC size can be measured. Both recon and satellite data (SMAP pass below) indicated Tedward in 2020 had larger wind radii than even Tip's mission 26 just before it finished extratropical transition. Also, when examining the td9635 Typhoon Analog dataset, which kept record of tropical cyclone size using the diameter of the outermost closed isobar in degrees latitude in 1976 and prior, larger TCs than Tip can be found using that metric here as well. Storms like Super Typhoon Lan from 2017 and Super Typhoon Hagibis from 2019 may have been closer to Tip's peak size than many realize.
Thank you 1900Hurricane. Great draft. Also by tedward did you mean Teddy? Also too bad we can't get a storm like Tip in the Atlantic(or maybe that is a good thing).
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I am by no means a professional. DO NOT look at my forecasts for official information or make decisions based on what I post.
Goal: to become a registered expert over tropical and subtropical cyclones.
https://i.imgur.com/XExsjxM.gif Fig 2. The maximum intensity (i.e. lowest central pressure, in hPa) of tropical cyclones in August (when they are most common in the northern hemisphere), according to Emanuel's theory (2). Also plotted are the positions and central pressures of some of the most intense tropical storms ever observed.
Every TC with a pressure recorded at or below 880 mb had the reading taken at or south of 20ºN, with Meranti '16 being the furthest north if the pressure data from Itbayat discussed in this thread is reliable. At the ship's reported latitude, five degrees further north and similar to that of Brownsville or Miami, the deepest pressure recorded I am aware of is from Flo '90, which had an 891 mb drop. While very deep, that is still a huge departure above the alleged Ida '45 pressure. A pressure of 865 mb might not even be possible that far poleward.
The 916 mb pressure in Kyushu is also very deep, the deepest pressure I am aware of that far poleward from a TC, but that isn't quite the outlier reading the 865 mb pressure was. Babe '77 had a 907 mb pressure recorded just a little south of Kyushu in the northern Ryukyus, the deepest pressure recorded in Japan. Further up the coast, Vera '59 maintained a 926 mb pressure a couple degrees further north. Finally, on the other side of the world, Camille '69 deepened to 900 mb at its gulf coast landfall, only a degree or so further south than Ida '45's landfall in Kyushu.
That 891 from Flo is not far off the latitude where the Labor Day Hurricane reached 892. As far as 916 in Kyushu, that's about two degrees north of where Camille reached 900, so it's at least conceivable (the lowest pressure at that range in the Atlantic I can find is 930 mb in Helene 1958 but that was in the open Atlantic as the Gulf doesn't make it that far north). But 865 at 26°N seems really fishy. That would be like a storm hitting Miami with a pressure of 865 mb.
North of 35°N, records become less valuable since the deepest storms typically occur with the help of baroclinic forcing at least to some degree.