SUMMARY: Part 2 - October TC Summary

From: Gary Padgett (garyp@ALAWEB.COM)
Date: Sun Feb 04 2007 - 08:40:34 EST

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MONTHLY GLOBAL TROPICAL CYCLONE SUMMARY

OCTOBER, 2006

Second Installment

SPECIAL NOTE: The October summary is being issued in two installments.

This installment covers the Northwest Pacific basin. All other basins

were covered in the first installment.

NOTE FROM THE AUTHOR: Almost two years ago I began including links to

track graphics prepared by John Diebolt of Tucson, Arizona, and archived

on his tropical cyclone website. A few months back John experienced a

disk crash which resulted in a error. He had to request assistance from

the programmer who had written the map-generation software, but so far

has not been able to get the problem solved. As a convenience to users,

I've also recently been including links to the individual tabular tracks,

prepared by myself, which John had archived on his website. Now, due to

family concerns, John has not had time to place the tracks for recent

cyclones on the website. I have checked the websites listed at the end

of the summaries and found that the entire October track file has been

archived on two of them. The links are:

http://australiasevereweather.com/cyclones/2007/trak0610.htm

http://www.typhoon2000.ph/garyp_mgtcs/oct06tks.txt

(For general comments about the nature of these summaries, as well as

information on how to download the tabular cyclone track files, see

the Author's Note at the end of this summary.)

*************************************************************************

OCTOBER HIGHLIGHTS

--> Atlantic very quiet--no tropical cyclones form

--> Extremely intense super typhoon strikes northern Luzon

--> South Pacific season gets underway early with intense tropical

cyclone

*************************************************************************

ACTIVITY BY BASINS

ATLANTIC (ATL) - North Atlantic Ocean, Caribbean Sea, Gulf of Mexico

Activity for October: 1 hurricane **

** - Storm formed in September

NOTE!!! The Atlantic basin was covered in the first installment of the

October summary.

*************************************************************************

NORTHEAST PACIFIC (NEP) - North Pacific Ocean East of Longitude 180

Activity for October: 2 tropical depressions **

2 tropical storms

1 hurricane

** - one of the non-developing tropical depressions formed in the

Central North Pacific region

NOTE!!! The Northeast Pacific basin was covered in the first installment

of the October summary.

*************************************************************************

NORTHWEST PACIFIC (NWP) - North Pacific Ocean West of Longitude 180

Activity for October: 3 tropical depressions **

2 tropical storms

1 typhoon

1 super typhoon

** - none of these classified by JTWC; one classified by PAGASA only,

two others classified by JMA only

Sources of Information

----------------------

Most of the information presented below is based upon tropical

cyclone warnings and significant tropical weather outlooks issued

by the Joint Typhoon Warning Center of the U. S. Air Force and

Navy (JTWC), located at Pearl Harbor, Hawaii. In the companion

tropical cyclone tracks file, I normally annotate track coordinates

from some of the various Asian warning centers when their center

positions differ from JTWC's by usually 40-50 nm or more. All

references to sustained winds imply a 1-minute averaging period

unless otherwise noted.

Michael V. Padua of Naga City in the Philippines, owner of the

Typhoon 2000 website, normally sends me cyclone tracks based upon

warnings issued by the Japanese Meteorological Agency (JMA) and the

Philippines' Atmospheric, Geophysical & Astronomical Services

Administration (PAGASA). A very special thanks to Michael for the

assistance he so reliably provides.

In the title line for each storm I have referenced all the cyclone

names/numbers I have available: JTWC's depression number, the

JMA-assigned name (if any), JMA's tropical storm numeric designator,

and PAGASA's name for systems forming in or passing through their

area of warning responsibility.

Northwest Pacific Tropical Activity for October

-----------------------------------------------

Tropical activity in the Northwest Pacific basin was fairly normal

in October. Four tropical cyclones were named. Tropical Storms Rumbia

and Bebinca during the opening days of the month were large, loosely-

organized monsoon depression-type tropical storms with Bebinca moving

northward through the Philippine Sea and the concurrent Rumbia moving

northward well east of the Marianas. Typhoon Soulik during the middle

decade of the month formed north of Pohnpei and moved northwestward

toward Iwo Jima, where it stalled and intensified into a typhoon of

moderate intensity before moving northward and recurving into the

westerlies southeast of Japan. Super Typhoon Cimaron was arguably

the most intense Northwest Pacific tropical cyclone of 2006 and the

most intense to strike the typhoon-plagued Philippine Archipelago since

Super Typhoon Zeb in 1998. Fortunately, the storm was rather small in

areal extent and made landfall in an apparently sparsely-populated

region. Reports on all the named cyclones follow.

As the month opened, Typhoon Xangsane was making landfall in Vietnam

and had dissipated by the 2nd. Three systems were classified as tropical

depressions by various warning agencies, though not by JTWC. A slow-

moving low-pressure area in the vicinity of Iwo Jima was classified as

a weak tropical depression by JMA beginning at 0000 UTC on 21 October.

The system was drifting slowly north-northwestward and was downgraded

to a low-pressure area by 1800 UTC the same day. A low-pressure area

in the South China Sea near 16.0N/113.0E was referenced as a weak

tropical depression in JMA's High Seas Bulletin at 0600 UTC on 22 October

but was not mentioned further. The first of these systems was mentioned

in JTWC's STWOs as an area with a 'poor' potential for development; the

second wasn't referenced at all.

Another system was briefly classified as a tropical depression by

PAGASA and named Ompong. Tropical Depression Ompong was in existence

on 12-13 October, remaining quasi-stationary to the east of Luzon.

Maximum winds estimated by PAGASA were 30 kts. However, I could find

no reference to this system in either JMA's bulletins or in JTWC's STWOs,

which suggests that it was likely a broad monsoon LOW with little

organized deep convection. No tracks were given for Ompong nor the

two weak JMA depressions in the companion cyclone tracks file. The

PAGASA track for Tropical Depression Ompong may be found at the

following link:

http://www.typhoon2000.ph/stormarchives/2006/stormlogs/15ompong06_log.htm

The online Wikipedia reports for the Northwestern Pacific cyclones may

be accessed at the following URL:

http://en.wikipedia.org/wiki/2006_Pacific_typhoon_season

TROPICAL STORM BEBINCA

(TC-19W / TS 0616 / NENENG)

28 September - 6 October

-----------------------------------------------

Bebinca: contributed by Macau, is the name of a Macanese milk pudding

served in the Portuguese restaurants of Macau

A. Introduction and Storm Origins

---------------------------------

Tropical Storm Bebinca, known in the Philippines by the name Neneng,

was a fairly weak tropical storm in early October which formed in the

Philippine Sea and recurved east of Luzon. Bebinca operated concurrently

with Tropical Storm Rumbia farther to the east, and in its extratropical

stages appeared to absorb the latter storm. An area of convection formed

and persisted just east of Guam on 27 September and was referenced in a

STWO issued at 27/1730 UTC. Infrared satellite imagery showed convection

beginning to consolidate near an elongated LLCC, while an upper-level

analysis revealed an anticyclone aloft directly over the disturbance

providing good outflow and low vertical wind shear. JMA identified

the system as a weak tropical depression at 28/1200 UTC in a High Seas

Bulletin, and by the 29th the disturbance was located approximately

165 nm north-northeast of Yap. A TUTT was enhancing divergence aloft,

and Yap had experienced a drop in MSLP of 2.5 mb over the previous 24

hours. Given this, plus the consolidating convection and still-favorable

environment aloft, JTWC upped the development potential to 'fair' at

29/1500 UTC.

The system had entered PAGASA's AOR by 0600 UTC on 1 October and that

agency immediately initiated warnings on Tropical Depression Neneng. Six

hours later JTWC issued their first warning on Tropical Depression 19W,

placing the center about 725 nm south-southeast of Okinawa and moving

northwestward at 18 kts. TD-19W was situated within a broad monsoon

trough located east of the Philippines and was slow to intensify due

to the competing influences of favorable outflow aloft and moderate

vertical shear. By 1800 UTC on 2 October organization had proceeded to

the point that JTWC upgraded TD-19W to tropical storm intensity and

placed the center about 725 nm south of Naha, Okinawa. Six hours later

JMA also upgraded the system to tropical storm status and assigned the

name Bebinca.

B. Synoptic History

-------------------

Bebinca had been essentially stationary well to the east of Luzon

while strengthening to tropical storm intensity, but by 0600 UTC on

3 October a pronounced northward motion had developed. The system was

slow to gain in intensity--JMA upped their MSW estimate to 40 kts at

03/1800 UTC, and JTWC increased their intensity to an initial peak

of 45 kts at 04/0000 UTC. However, Bebinca soon began to experience

shear with a weakening trend setting in. At 04/1800 UTC JTWC downgraded

Bebinca briefly to a tropical depression with the estimated center

located about 450 nm west-southwest of Iwo Jima. Animated infrared

satellite imagery and a 04/1726 UTC AMSU pass depicted two possible

LLCCs within a broad low-pressure area. Surprisingly, just six hours

later Bebinca was re-upgraded with its intensity set back at the peak

of 45 kts. This upgrade followed a relocation to the north based on

multi-spectral satellite imagery and a 04/2115 UTC QuikScat pass.

(Through this weakening and re-intensification episode JMA's 10-min

avg MSW remained constant at 40 kts, which was that agency's peak

intensity for Bebinca. PAGASA's peak 10-min avg MSW estimate for

Tropical Storm Neneng was 45 kts.)

At 05/0600 UTC Tropical Storm Bebinca was located approximately

550 nm south of Kyoto, Japan, tracking north-northeastward at 14 kts.

The tropical storm's heading became increasingly northeastward on

5 October. By 1800 UTC the LLCC had decoupled from the deep convection

and JTWC lowered the MSW to 35 kts. Both JTWC and JMA downgraded Bebinca

to a 25-kt tropical depression at 06/0000 UTC and issued their final

warnings with the system centered about 300 nm northwest of Iwo Jima.

At the same time a developing extratropical LOW was located at 32.0N/

139.0E, or less than 200 nm north of the weakening Bebinca. The remnants

of Bebinca were apparently entrained into the extratropical system, which

subsequently absorbed the remnants of Tropical Storm Rumbia as it sped

eastward.

C. Damage and Casualties

------------------------

No damage or casualties have been directly attributed to Tropical

Storm Bebinca/Neneng, but according to the online Wikipedia report,

the extratropical LOW which absorbed the former tropical cyclone swept

across coastal waters of Honshu, leaving 33 persons either dead or

missing.

(Report written by Gary Padgett)

TROPICAL STORM RUMBIA

(TC-20W / TS 0617)

2 - 6 October

-----------------------------------------

Rumbia: contributed by Malaysia, is the name of a type of palm tree

which yields sago. The tree commonly grows along riverbanks,

in swampy areas, or in areas near water.

A. Introduction and Storm Origins

---------------------------------

Tropical Storm Rumbia, like its partner Bebinca, was a large, loosely-

organized tropical cyclone with monsoon depression characteristics.

Both systems featured a large outer circulation with massive deep

convection located relatively distant from the center. In the final

days of September disturbed weather covered a large area extending from

north of Pohnpei northward and well east of the Marianas. A STWO issued

by JTWC at 29/1500 UTC mentioned an area of convection which had

persisted just north of Pohnpei. A 29/0751 UTC QuikScat pass had

revealed an elongated LLCC with associated deep convection. During

subsequent days the main center of action seemed to migrate generally

northward with favorable divergence aloft but with moderate vertical

shear. At 1800 UTC on 2 October JMA upgraded the system to a 30-kt

tropical depression located approximately 450 nm east-southeast of the

northernmost Mariana Islands. A STWO issued by JTWC around the same

time noted that a 02/0737 UTC QuikScat pass had indicated a developing

LLCC on the eastern periphery of the monsoon trough with 20-kt westerly

winds southwest of the center and sea level pressures near 997 mb. JTWC

at that time upped the potential for development to 'fair'.

B. Synoptic History

-------------------

JMA upgraded the depression to Tropical Storm Rumbia at 1200 UTC on

3 October with the center about 500 nm east of the northern Marianas.

A few hours later JTWC issued a TCFA for the system, noting that the

system lay under a 200-mb LOW with significant dry air over the western

semicircle and weak to moderate vertical shear. Rumbia continued slowly

northward and JMA upped the winds to the peak of 45 kts (10-min avg) at

04/0000 UTC with the large cyclone centered approximately 475 nm east-

northeast of the northernmost Marianas. The intensity was based upon

an earlier QuikScat pass which had indicated legitimate 40-45 kt winds

in the northeastern quadrant. According to Mark Lander, QuikScat winds

are closer to a 10-min avg more so than a 1-min avg. JTWC at this point

had still not initiated warnings on Rumbia, and did not do so until

04/1800 UTC when the first warning on Tropical Depression 20W was

issued. The system was then centered approximately 600 nm east of Iwo

Jima and plodding northwestward. (JTWC had issued two TCFAs on the

developing system: one at 03/1700 UTC and the second at 04/1630 UTC.)

QuikScat data continued to report winds above gale force extending

outward for hundreds of miles. Observations from the ship Liberty Eagle

around 0000 UTC on 5 October of winds of 37 to 44 kts corroborated the

QuikScat winds. JTWC finally upgraded Rumbia to a minimal tropical storm

at 05/1200 UTC. However, they never raised the MSW above 35 kts and

maintained Rumbia as a tropical storm for only 12 hours. Rumbia began

to accelerate northward and weaken late on the 5th. JTWC downgraded the

cyclone to a tropical depression at 06/0000 UTC with the center located

560 nm east-northeast of Iwo Jima and moving northward at 18 kts. At

the same time JMA lowered their MSW estimate to 40 kts, but six hours

later downgraded Rumbia to a 25-kt dissipating depression. The LLCC

had become completely exposed and was rapidly deteriorating. The

remnants of Rumbia were ultimately absorbed into the same extratropical

LOW which had absorbed the remnants of Tropical Storm Bebinca.

As noted above JMA's peak estimated MSW for Rumbia was 45 kts (10-min

avg) with minimum CP estimated at 985 mb.

C. Damage and Casualties

------------------------

No reports of damage or casualties resulting from Tropical Storm

Rumbia have been received.

D. Additional Discussion

------------------------

Rumbia was a very unusual case in that the intensity estimates

assigned by JMA were consistently higher than those assigned by JTWC.

As noted in the narrative above, QuikScat data in addition to ship

observations revealed the existence of winds in the 40-45 kt range,

so in the author's opinion, the JMA estimates should be considered

as the more representative of the system's intensity.

Rumbia was one of those not-too-infrequent Western Pacific systems

of monsoon origin which just do not "behave" according to the Rules of

Proper Behavior for Young Tropical Cyclones according to the Dvorak

method. Mark Lander has pointed this out time after time over the years.

Based on the observed intensity Rumbia should have been earning Dvorak

ratings of around T3.0. However, the CI numbers from AFWA and JTWC

remained at T2.0, except around 1800 UTC on 5 October, when they reached

T2.5 just before the system began to shear apart. Also, in the earlier

stages the numbers from SAB were at T2.0, but early on the 4th the

SAB analyst assigned a ST2.5 rating using the Hebert-Poteat method for

subtropical cyclones. Rumbia was not a subtropical system, but exhibited

some characteristics of subtropical cyclones such as a lack of deep

convection near the center and a large band well to the east of the LLCC.

However, it is still somewhat surprising that JTWC based their

intensity estimates only on satellite analysis and ignored the valid

QuikScat data and ship reports. Another interesting thing--the NWS

forecast office on Guam issues warnings for many of the islands in the

Marianas and Micronesian groups. Normally, the Guam Weather Forecast

Office (WFO) utilizes the MSW value reported in JTWC's warnings. However,

in the case of Rumbia, they deviated from this practice. The first

two Guam WFO advices, issued at 04/2100 and 05/0300 UTC, respectively,

estimated the MSW at 45 kts. This was prior to JTWC upgrading Rumbia

to minimal tropical storm status. According to one of the Guam WFO

forecasters, they normally do follow JTWC but in this case felt the

observations warranted doing otherwise. In his words, one "needs to

remember: the Dvorak technique makes a good servant but a bad master."

Here's another interesting observation from Mark Lander posted on

4 October, during the period in which Tropical Storms Bebinca and Rumbia

were operating to the west and east of Guam, respectively:

"Southwesterly monsoon winds have been blowing for several days on Guam.

We have had upwards of 8 inches of rain in a 4-day period. Very thick

smog has overspread our region as a result of the monsoon trajectory

bringing us thick smog from Indonesia (caused by seasonal slash-and-burn

activities there). The thick aerosol load has an interesting side effect

of enhancing the lightning efficiency of the showers and squalls in the

monsoon flow."

(Report written by Gary Padgett)

TYPHOON SOULIK

(TC-21W / TY 0618)

8 - 17 October

--------------------------------------

Soulik: contributed by the Federated States of Micronesia, is a

traditional Pohnpei Chief's title

A. Introduction and Storm Origins

---------------------------------

Typhoon Soulik was a mid-October typhoon of moderate intensity which

stalled near Iwo Jima as it reached typhoon intensity and later recurved

harmlessly out to sea to the southeast of Japan. On 6 October an area

of convection had developed approximately 130 nm north-northeast of

Kwajalein. There was an area of cyclonic shear at the surface attended

by some flaring convection; however, there was no evidence of a LLCC at

the time. A surface circulation gradually took shape and JMA began

referencing the system as a tropical depression at 1200 UTC on 8 October

in their High Seas Bulletins. JTWC issued a TCFA for the disturbance

at 08/1630 UTC, placing the center about 310 nm north-northeast of

Pohnpei. A TRMM pass at 08/1349 UTC had revealed banding convection

wrapping into the northern periphery of a consolidating LLCC. An upper-

level analysis showed an anticyclone aloft and a TUTT cell to the north-

west of the disturbance. These two features were combining to facilitate

dual poleward and equatorward outflow channels with low vertical shear.

The first JTWC warning on Tropical Depression 21W was issued at 0000

UTC 9 October, placing the center about 770 nm east of Guam and tracking

northwestward at 15 kts. TD-21W was upgraded to a tropical storm at

1200 UTC as it tracked along the southwestern periphery of a subtropical

ridge anchored north of Wake Island. At 09/1800 UTC JMA upgraded the

system to tropical storm status and assigned the name Soulik.

B. Synoptic History

-------------------

The newly-christened tropical storm's intensification proceeded at a

somewhat slow rate due to restricted outflow and moderate vertical wind

shear as Soulik moved steadily on a northwesterly trajectory which

gradually became west-northwesterly. By 1200 UTC on 10 October Soulik's

winds had reached 55 kts with the storm centered about 360 nm northeast

of Saipan. The MSW remained at around 55-60 kts for two full days as

the cyclone moved in the direction of Iwo Jima, tracking along the

southwestern periphery of a subtropical ridge (STR) centered north of

Wake Island. Another STR to the west of the tropical cyclone had begun

to build northward, forcing the system to track more to the north-

northwest. In addition a passing mid-latitude shortwave trough had

created a weakness in the STR to the northeast of the storm, enhancing

the more northerly track.

The primary inhibiting influence on Soulik's intensification had been

significantly-reduced poleward outflow. A poleward outflow channel had

developed by the 12th and accordingly Soulik reached typhoon intensity

at 12/1200 UTC while centered only 80 nm south of Iwo Jima, moving north-

northwestward at 7 kts. Due to a "tug-of-war" between the eastern and

western STRs, Typhoon Soulik moved little as it intensified to its peak

intensity of 90 kts. Twenty-four hours after attaining typhoon status,

the storm was quasi-stationary only about 55 nm south-southwest of the

island of Iwo Jima. As the STR to the west began to weaken and another

mid-latitude trough approached, the storm began to slowly nudge

northward. The closest approach to Iwo Jima came around 14/0600 UTC

when the center of Soulik's eye was placed only 20 nm west of the island.

Based on JTWC's warning at that hour, the island would have been within

the radius of typhoon-force winds.

By 14/1200 UTC Typhoon Soulik was located about 50 nm north-northwest

of Iwo Jima and the heading had begun to bend a little to the north-

northeast at 7 kts. Some strong westerlies associated with the

approaching trough were beginning to impinge on the typhoon's north-

western quadrant, and the intensity was lowered to 80 kts. By 15/0000

UTC Soulik was located approximately 170 nm north of Iwo Jima and moving

north-northeastward at 13 kts. The MSW was estimated at 75 kts, and

there were signs that the cyclone was beginning extratropical transition

with stratocumulus in the western quadrants and a notch of drier air

intruding into the southern quadrants. Soulik continued to accelerate

to the northeast and weaken as the 15th progressed. The storm was down-

graded to a 60-kt tropical storm at 1200 UTC, and JTWC declared Soulik

extratropical and issued their final warning at 1800 UTC. The system

was then located roughly 400 nm southeast of Tokyo and racing north-

eastward at 27 kts. JMA maintained Soulik as a typhoon through 1800

UTC, and then as a tropical storm for another 12 hours, finally declaring

the system extratropical at 16/1200 UTC. The storm continued moving

rapidly eastward, crossing the Dateline around 1600 UTC on 17 October.

The final reference to the system in JMA's High Seas Bulletins placed

a weakening 35-kt gale far to the south of the Aleutians at 17/1800 UTC.

The maximum 10-min avg MSW assigned to Typhoon Soulik by JMA was

75 kts with an attendant minimum CP of 955 mb.

C. Meteorological Observations

------------------------------

As noted above, Typhoon Soulik was essentially stalled very near Iwo

Jima at the time of its peak intensity, and based upon JTWC's wind radii,

the island should have experienced sustained typhoon-force winds.

However, no synoptic observations have been received by the author. The

online Wikipedia report states that 205 mm of rainfall was recorded on

Pagan Island in the Marianas in association with Soulik.

D. Damage and Casualties

------------------------

No reports of damage of casualties resulting from Typhoon Soulik have

been received.

(Report written by Gary Padgett)

SUPER TYPHOON CIMARON

(TC-22W / TY 0619 / PAENG)

26 October - 6 November

----------------------------------------------

Cimaron: contributed by the Philippines, is the name of a Philippine

wild ox

A. Introduction and Storm Origins

---------------------------------

Cimaron was the third of six typhoons to strike the Philippine

Archipelago during 2006, and although the most intense, it was not the

deadliest. The cyclone was also the fifth of six typhoons during 2006

to reach JTWC's super typhoon threshold of 130 kts--not counting Ioke

which was a visitor from the Central North Pacific and entered the

Northwest Pacific basin already at super typhoon intensity on 27 August.

(There is a distinct possibility that Typhoon Chebi in November also

reached super typhoon status, but it was not officially upgraded

operationally.)

An area of convection developed on 24 October near 13.0N/150.0E, or

approximately 320 nm east of Guam. Convection was flaring over an area

of low-level cyclonic shear, and upper-level conditions were favorable

with good divergence and low vertical shear. By the next day the

primary area of disturbed weather was relocated to the south-southwest

of Guam. A LLCC appeared to be consolidating, and the environment was

still favorable for cyclogenesis. At 0600 UTC on the 26th JMA began

to classify the system as a weak tropical depression, and six hours later

upped the winds to 30 kts. The system was by now roughly a couple

hundred miles to the north of Yap with improving poleward outflow. JTWC

issued a TCFA around 1300 UTC, and the first warning on Tropical

Depression 22W was issued at 26/1800 UTC. The center of TD-22W was then

located about 750 nm east of Manila, tracking west-northwestward at

11 kts. JTWC upgraded the depression to a tropical storm at 27/0000 UTC,

and at the same time PAGASA initiated bulletins on Tropical Depression

Paeng. Six hours later both JMA and PAGASA upgraded the system to

tropical storm status with JMA assigning the international name Cimaron,

which incidentally happens to be a name contributed by the Philippines.

B. Synoptic History

-------------------

With a strong subtropical ridge to the north, Tropical Storm Cimaron

embarked on a general west to west-northwesterly track which would lead

to a rendezvous with the island of Luzon in 2 1/2 days. By 27/1200 UTC

Cimaron was located about 550 nm east of Manila and had intensified to

50 kts. With dual outflow channels developing, Cimaron began to deepen

rapidly. By 28/1200 UTC the MSW had increased to 100 kts; eighteen hours

later Cimaron's winds had climbed to 155 kts--the most intense typhoon

of 2006. The estimated CP (per JMA's analysis) dropped 65 mb in 24 hours

from 975 mb at 28/0600 UTC to 910 mb at 29/0600 UTC. (See discussion

on Cimaron's intensity in Section D below.) The storm was a fairly

compact typhoon with the gale radius being about 135 nm. Super Typhoon

Cimaron/Paeng was located about 175 nm northeast of Manila at 29/0600 UTC

and closing in on the eastern coast of Luzon. A TRMM overpass at

29/0540 UTC revealed the presence of two tiny concentric eyewalls

separated by only a few kilometres.

The eye of the small but extremely intense typhoon made landfall just

north of Casiguran around 1300 UTC on 29 October, still at its peak

intensity of 155 kts. Typhoon Paeng transited Luzon fairly quickly--by

0000 UTC on the 30th the center had emerged off northeastern Luzon into

the South China Sea. A subtropical ridge to the north kept the typhoon

on a general westerly track for a day or so, but a weakness developed

in the ridge and Cimaron/Paeng began to turn to the northwest with a

great reduction in its forward motion. By 0600 UTC on 1 November Typhoon

Cimaron had become essentially stationary about 230 nm south-southeast

of Hong Kong. After emerging from Luzon the MSW had become steady-state

around 90 kts, but late on 31 October began to increase again, reaching

a secondary peak intensity of 110 kts at 01/0600 UTC. The rejuvenation,

however, was short-lived. As Cimaron sat basking in the sun over the

South China Sea, it began to weaken under the combined unfavorable

influences of increasing vertical shear, entrainment of dry air from the

west, and suppressed equatorward outflow.

The storm weakened quite rapidly from its 110-kt secondary peak at

0600 UTC on 1 November. At 1800 UTC on the 2nd both JMA and JTWC down-

graded Cimaron to a 55-kt tropical storm, located about 280 nm south-

southeast of Hong Kong. The weakening cyclone was moving southwestward

at 5 kts due to a north-northeasterly flow at the 850-700 mb level as

strong ridging persisted over southern China. JTWC downgraded Cimaron

to a tropical depression at 1800 UTC on 3 November and issued their

final warning at 04/1200 UTC with the system centered approximately

390 nm south-southeast of Hong Kong, moving southwestward at 4 kts.

Interestingly, JMA was still maintaining Cimaron as a minimal tropical

storm at the time and continued to do so through 05/1800 UTC, downgrading

it at 06/0000 UTC. The system quickly weakened into a low-pressure area

with the final reference in JMA's High Seas Bulletins placing it near

11.0N/115.0E at 06/1800 UTC. (Note: The track map accompanying the

online Wikipedia report on Cimaron depicts the residual LOW accelerating

toward the southwest and moving into southern Vietnam and skimming along

the southeastern Vietnamese coastline. I did not save the JMA bulletins

beyond 06/1800 UTC as the system was no longer being referred to as a

tropical depression.)

C. Damage and Casualties

------------------------

According to the online Wikipedia report, at least 19 people were

killed in the northern Philippines, mostly by drowning. An additional

15 persons were reported missing. Damage from Typhoon Paeng was

estimated at around $9 million U. S. dollars. In a coastal town near

where the center made landfall, 90% of the houses were damaged.

D. Additional Discussion

------------------------

The highest 10-min avg MSW estimated by both JMA and PAGASA for Super

Typhoon Cimaron/Paeng was 105 kts. The highest 1-min avg MSW reported

in JTWC's warnings was 140 kts at 0600 and 1200 UTC on 29 October. In

the discussion above and also in the companion cyclone tracks file which

I prepare, I have chosen to report 155 kts as the peak 1-min avg MSW

for Cimaron. Ever since I began writing the tropical cyclone summaries

in 1997 I have rarely departed from using JTWC's warnings as the source

of a 1-min avg MSW to report. However, in the case of Cimaron, I felt

that there was sufficient evidence that the cyclone was more intense than

140 kts to warrant deviating from my long-standing practice.

JTWC's intensity during the time under consideration was based solely

on the Dvorak ratings by that agency's satellite analyst(s), which were

T7.0/7.0. However, AFWA rendered a rating of T7.5/7.5 at 0531, 1131,

and 1431 UTC on the 29th, noting that constraints were broken due to

the rapid intensification. Also, the SAB analysis at 29/0833 UTC was

T7.5/7.5. The SAB rating at 29/0233 UTC had been T7.0/7.0, but the

remarks indicate that the analyst felt very strongly that the system was

more intense, but held back out of respect for the Dvorak rules. He

also noted that the visual Data-T number was T8.0. In an e-mail, the

same SAB analyst stated that he could not remember a storm with a 26 C

eye being maintained for nearly 10 hours (and in GOES imagery at that!)

while remaining embedded in a CMG (and at times CDG) ring without some

breakdown. Also, the JTWC satellite bulletins at 29/0230 and 29/0830

UTC noted that the AODT numbers were 7.6 and 7.8, respectively.

As a result of this, I requested Dr. Karl Hoarau (whom I regard as

an expert Dvorak analyst), to study imagery of Cimaron and render his

opinion. Karl agreed with the SAB and AFWA analyses and estimated a

peak intensity of 155 kts.

This discussion should not be taken as a criticism of JTWC. Indeed,

the difference was only 1/2 T-number, and I have heard forecasters

say "I'll never argue half a T-number with you." And forecasters as a

general rule tend to be more conservative as they are the ones who

actually assign the reported intensity estimates. It is really an

academic issue--one would prepare for a 155-kt cyclone exactly as one

would prepare for a 140-kt cyclone.

However, just because it is an academic issue is not to say that it

isn't important. I personally feel that in post-storm analyses and "best

track" intensity determinations, every effort should be made to fine tune

the MSW to the very best 5-kt value. The official "best track" databases

are often the bases for climatological studies of tropical cyclones, and

since the vast majority of the MSW values in the databases, globally

speaking, are based on Dvorak analysis techniques (with perhaps nowadays

microwave and scatterometer data playing an increasing role), it is very

important that the analyses lying behind the estimated intensities be

performed in as consistent manner as possible. Otherwise, spurious

trends could be inferred from the data, or conversely, real trends in

some parameter could be masked due to inconsistencies in the manner in

which the intensities were determined.

(Report written by Gary Padgett)

*************************************************************************

NORTH INDIAN OCEAN (NIO) - Bay of Bengal and Arabian Sea

Activity for October: 1 cyclonic storm **

** - no warnings issued on this system by JTWC

NOTE!!! The North Indian Ocean basin was covered in the first installment

of the October summary.

*************************************************************************

SOUTHWEST INDIAN OCEAN (SWI) - South Indian Ocean West of Longitude 90E

Activity for October: 1 tropical disturbance

NOTE!!! The Southwest Indian Ocean basin was covered in the first

installment of the October summary.

*************************************************************************

NORTHWEST AUSTRALIA/SOUTHEAST INDIAN OCEAN (AUW) - From 90E to 135E

Activity for October: No tropical cyclones

*************************************************************************

NORTHEAST AUSTRALIA/CORAL SEA (AUE) - From 135E to 160E

Activity for October: No tropical cyclones

*************************************************************************

SOUTH PACIFIC (SPA) - South Pacific Ocean East of Longitude 160E

Activity for October: 1 tropical depression

1 tropical cyclone of hurricane intensity

NOTE!!! The South Pacific basin was covered in the first installment of

the October summary.

*************************************************************************

SPECIAL FEATURE - SOURCES OF TROPICAL CYCLONE INFORMATION

The purpose of this section is to list some websites where many and

varied types of tropical cyclone information are archived. Many readers

will know about these already, but for the benefit of those who don't,

I wanted to include them.

(1) Aircraft Reconnaissance Information

---------------------------------------

Various types of messages from reconnaissance aircraft may be

retrieved from the following FTP site:

ftp://ftp.nhc.noaa.gov/pub/products/nhc/recon/

Information regarding how to interpret the coded reconnaissance

messages may be found at the following URL:

http://www.nhc.noaa.gov/reconlist.shtml

Links are also included to websites with further information about the

U. S. Air Force 53rd Weather Reconnaissance Squadron and the NOAA Air-

craft Operations Center.

(2) Archived Advisories

-----------------------

All the advisory products (public advisories, forecast/advisories,

strike probabilities, discussions, various graphics) issued by TPC/NHC

are archived on TPC's website. For the current year (using 2004 as an

example), the archived products can be found at:

http://www.nhc.noaa.gov/archive/2004/index.shtml

Links to tropical products archives for earlier years are available at

the following URL:

http://www.nhc.noaa.gov/pastall.shtml

JTWC warnings for past storms are archived on the NRL Monterrey website:

http://www.nrlmry.navy.mil/tc_pages/tc_home.html

On the NRL site, the link to past years can be found in the upper left

corner of the screen.

I am not aware at the moment of any other TCWC which archives all

its tropical cyclone warning/advisory products for public access, but

if I learn of any, I will add them to this list.

(3) Satellite Imagery

---------------------

Satellite images of tropical cyclones in various sensor bands are

available on the NRL Monterrey and University of Wisconsin websites,

courtesy of Jeff Hawkins and Chris Velden and their associates. The

links are:

http://www.nrlmry.navy.mil/tc_pages/tc_home.html

http://cimss.ssec.wisc.edu/tropic/tropic.html

On the NRL site, the link to past years can be found in the upper left

corner of the screen. For the CIMSS site, a link to data archives is

located in the lower left portion of the screen.

Additional tropical satellite imagery, along with looping ability for

composite microwave imagery for the Western Hemisphere north of the

equator, can be found at:

(1) For the Eastern North Pacific:

http://www.ssd.noaa.gov/PS/TROP/trop-epac.html

(2) For the Atlantic, Gulf of Mexico and Caribbean Sea:

http://www.ssd.noaa.gov/PS/TROP/trop-atl.html

I'm sure there are other sites with available imagery available, and

as I learn of them, I will add the links to this list.

*************************************************************************

EXTRA FEATURE

In order to shorten the amount of typing in preparing the narrative

material, I have been in the habit of freely using abbreviations and

acronyms. I have tried to define most of these with the first usage

in a given summary, but I may have missed one now and then. Most of

these are probably understood by a majority of readers but perhaps a

few aren't clear to some. To remedy this I developed a Glossary of

Abbreviations and Acronyms which I first included in the August, 1998

summary. I don't normally include the Glossary in most months in

order to help keep them from being too long. If anyone would like to

receive a copy of the Glossary, please e-mail me and I'll be happy

to send them a copy.

*************************************************************************

AUTHOR'S NOTE: This summary should be considered a very preliminary

overview of the tropical cyclones that occur in each month. The cyclone

tracks (provided separately) will generally be based upon operational

warnings issued by the various tropical cyclone warning centers. The

information contained therein may differ somewhat from the tracking and

intensity information obtained from a "best-track" file which is based

on a detailed post-seasonal analysis of all available data. Information

on where to find official "best-track" files from the various warning

centers will be passed along from time to time.

The track files are not being sent via e-mail. They can be retrieved

from the archive sites listed below. (Note: I do have a limited e-mail

distribution list for the track files. If anyone wishes to receive

these via e-mail, please send me a message.)

Both the summaries and the track files are standard text files

created in DOS editor. Download to disk and use a viewer such as

Notepad or DOS editor to view the files.

The first summary in this series covered the month of October,

1997. Back issues can be obtained from the following websites

(courtesy of Michael Bath, Michael V. Padua, Michael Pitt, Chris

Landsea, and John Diebolt):

http://australiasevereweather.com/cyclones/

http://www.typhoon2000.ph <http://www.typhoon2000.ph/>

http://mpittweather.com <http://mpittweather.com/>

ftp://ftp.aoml.noaa.gov/hrd/pub/landsea/padgett/

http://www.tropicalcyclone2005.com/

Another website where much information about tropical cyclones may

be found is the website for the UK Meteorological Office. Their site

contains a lot of statistical information about tropical cyclones

globally on a monthly basis. The URL is:

http://www.metoffice.gov.uk/weather/tropicalcyclone

TROPICAL CYCLONE REPORTS AVAILABLE

JTWC now has available on its website the Annual Tropical Cyclone

Report (ATCR) for 2004 (2003-2004 season for the Southern Hemisphere).

ATCRs for earlier years are available also.

The URL is: http://199.10.200.33/jtwc.html

Also, TPC/NHC has available on its webpage nice "technicolor"

tracking charts for the 2005 Atlantic and Eastern North Pacific

tropical cyclones; also, storm reports for all the 2005 Atlantic

and Eastern North Pacific cyclones are now available, as well as

track charts and reports on storms from earlier years.

The URL is: http://www.nhc.noaa.gov <http://www.nhc.noaa.gov/>

A special thanks to Michael Bath of McLeans Ridges, New South Wales,

Australia, for assisting me with proofreading the summaries.

PREPARED BY

Gary Padgett

E-mail: garyp@alaweb.com

Phone: 334-222-5327

Kevin Boyle (Northwest Pacific)

E-mail: newchapelobservatory@btinternet.com

Simon Clarke (Northeast Australia/Coral Sea, South Pacific)

E-mail: scla4255@bigpond.net.au

*************************************************************************

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