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Tropical Cyclone Report
Hurricane Michael
17 - 19 October 2000

Stacy R. Stewart
National Hurricane Center
20 November 2000

Tropical Depression One
Tropical Depression Two
Hurricane Alberto
Tropical Depression Four
Tropical Storm Beryl
Tropical Storm Chris
Hurricane Debby
Tropical Storm Ernesto
Tropical Depression Nine
Hurricane Florence
Hurricane Gordon
Tropical Storm Helene
Hurricane Isaac
Hurricane Joyce
Hurricane Keith
Tropical Storm Leslie
Hurricane Michael
Tropical Storm Nadine
Unnamed Subtropical Storm

[2000 Atlantic Hurricane Season]

Michael was a short-lived category two hurricane (on the Saffir-Simpson Hurricane Scale) that developed from subtropical origins off the northeast coast of Florida. Michael moved northeastward over the western and northern Atlantic as a tropical cyclone and eventually crossed Newfoundland as a strong extratropical low pressure system.

a. Synoptic History

The precursor low pressure system that eventually became Hurricane Michael developed as a result of an upper-level cold low that migrated southward from the mid-latitudes and interacted with a stationary front over the southeast Bahama Islands. A cold front pushed off the southeast U.S. coast on 7 October and moved slowly southeast for the next couple of days before it became stationary from near Bermuda to central Cuba on 10 October. High amplitude mid-latitude flow in the upper-troposphere allowed a cold low to drop southward just off the Florida east coast, which induced the formation of a surface low along the southern end of the front east of the central Bahamas on 12 October. The pressure gradient between the developing surface low and high pressure anchored over the eastern U.S. created an area of gale force winds several hundred miles northwest of the low center. The surface low remained nearly stationary for more than 24 hours before drifting slowly north-northeastward late on the 13th. On 14 October, the low deepened from 1010 mb to 1003 mb and moved north to a position about 800 n mi east of Cape Canaveral, FL. After remaining nearly stationary again for almost 24 h, the surface low turned westward and moved underneath the upper-level cold low on 15 October, and then stalled again about 650 n mi east of Jacksonville, FL, as a subtropical depression. Later that day, satellite classifications using the Hebert-Poteat technique indicated the pre-Michael low pressure system had strengthened into a subtropical storm. After remaining nearly stationary for an additional 48 h over very warm sea-surface temperatures (> 28° C), thunderstorms developed and persisted near the low-level center, which allowed the system to gradually acquire tropical characteristics.

Prior to tropical cyclone development, Dvorak satellite intensity estimates from the Tropical Analysis and Forecast Branch (TAFB), the Satellite Analysis Branch (SAB), and the Air Force Weather Agency (AFWA) indicated subtropical cyclone classifications as high as ST 2.5 or 35 kt (from the TAFB). However, by 0000 UTC, 17 October, satellite classifications suggested the low pressure system had acquired enough tropical characteristics to become Tropical Storm Michael. The transition from a subtropical to a tropical system was further supported by an earlier Advanced Microwave Sounder Unit (AMSU) satellite overpass, which indicated a weak warm core aloft and upper-level outflow had developed. Two QuikSCAT overpasses on the 16th also showed the radius of maximum winds had contracted from 150 n mi to less than 60 n mi between 1029 and 2252 UTC.

Later that day, U. S. Air Force Reserve (USAFR) reconnaissance aircraft indicated that Michael had strengthened based on 1500 ft flight-level wind reports of 60 kt and 990 mb surface pressure at 1717 UTC, and 72 kt and 988 mb pressure at 1906 UTC. Those values correspond to surface wind speed estimates of 51 kt and 61 kt, respectively, using a standard reduction of 0.85 for that altitude. Also, experienced hurricane hunter personnel estimated surface winds of 70 kt. Based on the reconnaissance data, it is estimated that Michael became a hurricane at 1800 UTC, 17 October. By 0615 UTC, 18 October, reconnaissance aircraft noted a 20 n mi circular closed eye at 850 mb, and observed a minimum surface pressure of 984 mb and flight-level winds of 73 kt. There were slight fluctuations in the flight-level winds and surface pressures for the next 36 hours until rapidly deepening occurred on the 19th. As Michael began to interact with the approaching strong mid-tropospheric trough, baroclinic effects may have played a role in Michael's 21 mb pressure drop from 986 mb at 1200 UTC to 965 mb at 1800 UTC. During the rapid deepening phase, the maximum flight-level wind and minimum pressure observed by reconnaissance aircraft was 95 kt (1500 ft) at 1829 UTC, from the NOAA Aircraft Operations Center (NAOC), and 979 mb from the USFAR, respectively, on 18 October.

Reconnaissance flights into Michael ceased after 1957 UTC on 19 October, and subsequent surface pressure and wind reports were obtained from ships, buoys, and land stations. While Michael was a tropical cyclone, the lowest pressure and maximum surface wind observed were 965.5 mb and 80 kt, respectively, which came from ship 3EHR6 (MSC Xingang) near the eastern eyewall at 1700 UTC, 19 October. By 2100 UTC, 19 October, a sharp shortwave trough embedded in strong southwesterly mid-level flow accelerated Michael northeastward toward a surface cold front. Surface data reports indicate merger with the front occurred about 100 n mi southwest of Harbour Breton, Newfoundland. The increasing vertical shear also likely played a role in the extratropical transition.

During landfall along the south coast of Newfoundland as an extratropical system, maximum sustained winds of 69 kt with gusts to 93 kt and a minimum pressure of 967.7 mb were reported near Sagona Island. A few hours prior to landfall, a Canadian reconnaissance aircraft observed an unofficial wind speed of 136 kt at the top of the boundary layer. However, the cool (4o to 10o C) and very stable boundary layer likely prevented those strong winds from mixing down to the surface. Radar imagery (Fig. 4) at 2145 UTC, 19 October, from Holyrood, Newfoundland, indicated a well-defined eye at 1.5 km AGL. However, surface observations and visible satellite imagery indicated that the position of the radar eye was located about 75 n mi northeast of the surface position. Decoupling of the mid- and upper-level circulation from the low-level center further indicates that Michael was rapidly becoming extratropical.

b. Meteorological Statistics

Observations in Michael (Figure 2 and Figure 3) include satellite-based Dvorak technique intensity estimates from TAFB, SAB, and AFWA. In addition, flight-level observations are available from flights of the USAFR 53rd Weather Reconnaissance Squadron and the NAOC.

Table 2 and Table 2a consist of all ship and buoy reports, respectively, of tropical storm force winds (> 34 kt) associated with Hurricane Michael. During and after landfall as an extratropical low pressure system, the Environment Canada Weather Service reported surface winds in excess of 50 kt (mainly along and east of the storm track) and pressures below 975 mb over nearly all of Newfoundland between 2100 UTC, 19 October, and 0600 UTC, 20 October. However, the Environment Canada Weather Service did not considered it particularly unusual since "...those communities are no strangers to such winds."

c. Forecast and Warning Critique

The average official track errors for Michael (with the number of cases in parentheses) were 63 (11), 133 (11), 202 (8), 247 (7), and 299 (4) n mi for the 12, 24, 36, 48 and 72 h forecasts, respectively. These errors are greater than the average official track errors for the 10-yr period 1990-1999 (46, 85, 122, 158, and 235 n mi, respectively) at all times. All available forecast guidance was much better than the official forecast except for the CLIPER (CLImatological and PERsistence) model, which indicates that the official forecasts showed some skill. The primary reason for the large errors were due to forecasting a slower and more northward track, which was behind and to the left of the majority of the forecast models. Part of the left-bias in the forecast was an expected quick transition to and merger with an approaching extratropical low pressure system.

Average official intensity errors for Michael were 11, 14, 21, 25, and 25 kt for the 12, 24, 36, 48, and 72 h forecasts, respectively. Like the track errors, the intensity errors are greater than the average official errors for the 10-yr period 1990-1999 (7, 11, 13, 16, and 19 kt, respectively), and were under-forecasts at all times, especially from 24 to 72 h. The first few forecasts kept Michael below hurricane strength, while latter forecasts weakened Michael too quickly to a tropical storm. The SHIPS intensity forecast model had similarly poor intensity forecasts.

No tropical cyclone-related watches or warnings were issued for Michael owing to the expected transition from a tropical to an extratropical cyclone before making landfall at Newfoundland. However, the Environment Canada Weather Service did issue a suite of non-tropical public wind advisories and other products well in advance of Michael's landfall.

d. Casualty and Damage Statistics

There were no reports of injuries or deaths as Michael traversed Newfoundland as an extratropical low pressure system. Tree and structural damage on Newfoundland was reported as being light. Damage was confined mainly to home roofs and siding, and trees being downed.

Table 1. Best track for Hurricane Michael, 17-19 October 2000.
Position Pressure
Wind Speed
Lat. (°N)Lon. (°W)
15 / 120030.071.2100730subtropical depression
15 / 180030.071.5100630"
16 / 000029.971.8100535subtropical storm
16 / 060029.971.9100535"
16 / 120029.771.7100535"
16 / 180029.871.4100435"
17 / 000029.9 71.11003 35tropical storm
17 / 060029.8 71.01000 45"
17 / 120029.8 70.9995 55"
17 / 180030.1 70.9988 65hurricane
18 / 000030.4 70.9988 65"
18 / 060030.8 70.8986 65"
18 / 120031.5 70.4984 65"
18 / 180032.6 69.5979 70"
19 / 000034.2 67.8983 75"
19 / 060036.3 65.5986 65"
19 / 120039.8 61.6979 75"
19 / 180044.0 58.5965 85"
20 / 000048.0 56.5966 75extratropical
20 / 060050.0 56.0966 70"
20 / 120051.0 53.5968 65"
20 / 180052.0 50.5970 60"
21 / 0000 absorbed by extratropical low
19 / 180044.0 58.5 965 85minimum pressure

Table 2. Ship reports with winds of at least 34 kt for Hurricane Michael, 17-19 October 2000.
Ship call sign Lat. (°N) Lon. (°W) Wind
16 / 06003ESU828.969.9160/331007.0
17 / 1800WGJT26.175.3310/371012.7
18 / 1500VVML32.267.9180/351014.3
18 / 1500WPGJ30.970.7270/361004.5
18 / 1800VVML32.068.2180/451002.3
18 / 1800WPGJ31.771.0310/351015.0
18 / 2100VVML31.868.4220/501004.8
19 / 0000LAVY434.967.4120/37 999.0
19 / 0000VVML31.868.7290/401009.3
19 / 0000ZCBU844.064.2110/471020.0
19 / 0300LAVY434.868.3340/36missing
19 / 0600ZCBU843.366.2110/681008.0
19 / 0900CY53343.860.6090/451004.4
19 / 12003FML341.455.0180/391010.6
19 / 12003FRY938.160.4180/571001.0
19 / 1200CY53343.860.6130/37 998.7
19 / 1200WPWH39.656.3180/351010.0
19 / 1200WRYX38.058.0170/421007.0
19 / 17003EHR643.059.4180/80 965.5
19 / 18003FRY938.258.5260/381006.8
19 / 1800C6FI943.360.3270/40 974.0
19 / 1800WPWH39.858.4250/381001.8
19 / 2100C6FI943.261.1270/45 990.0
20 / 0000C6FI943.261.7270/351003.0
20 / 0000MZGK744.355.9220/52 991.5
20 / 0000V7AP740.054.1210/371009.0
20 / 0000VCRT46.150.5180/48 992.0
20 / 0000VCRZ46.159.5320/43 986.7
20 / 06003EHR642.663.3300/351010.0
20 / 0600C6FI943.163.4270/401011.0
20 / 0600MZGK744.758.1250/46 998.4
20 / 0600VCRT46.252.0230/58 987.0
20 / 0600VCRZ46.959.5300/39 995.7
20 / 12008PNK44.560.5290/351009.3
20 / 1200LAQT242.154.0270/401008.3
20 / 1200MZGK744.560.7280/401008.1
20 / 1200V7AP740.458.9300/351013.0
20 / 1200VCRT46.252.5250/56 991.0
20 / 1500G313051.158.5330/34 993.9
20 / 1800G313051.158.5330/35 997.9
20 / 1800SHIP40.550.0270/351011.5
20 / 1800V7AP741.760.5270/371016.0
20 / 1800VCRT46.253.2270/60 996.0
20 / 1800ZCAH240.650.0270/351011.5

Table 2a. Buoy reports with winds of at least 34 kt for Hurricane Michael, 17-19 October 2000.
Buoy Call Sign
Date/ Time
Lat. (°N) Lon. (°W) Wind dir/speed
17 / 0000 41503 a26.273.0270/431011.9
17 / 0000 41505 a26.765.1 /46missing
18 / 0000 41501 a27.271.9290/451012.2
18 / 1200 41501 a27.171.9250/431013.6
19 / 1800 44139 b44.357.4140/43 983.5
19 / 2100 44255 b47.357.4040/37 976.1
20 / 0000 44139 b44.357.4230/43 992.0
20 / 0300 44139 b44.357.4260/35 998.4

a = drifting buoy
b = 10-min average wind; moored buoy

Best track positions for Hurricane Michael

Figure 1. Best track positions for Hurricane Michael. Track during the extratropical stage is based on analyses from the NOAA Marine Prediction Center and Environment Canada weather service. Subtropical positions on 15-16 October are very close to the 17-18 October tropical positions due to the system being nearly stationary.

Best track maximum sustained surface wind speed curve for Hurricane Michael

Figure 2. Best track maximum sustained surface wind speed curve for Hurricane Michael, and the observations on which the best track curve is based. Aircraft observations have been adjusted for elevation using 80 percent and 85 percent reduction factors for observations from 850 mb and 1500 ft, respectively. Estimates during the extratropical stage are based on analyses from the NOAA Marine Prediction Center and Environment Canada weather service.

Best track minimum central pressure curve for Hurricane Michael

Figure 3. Best track minimum central pressure curve for Hurricane Michael, and the observations on which the best track curve is based. Estimates during the extratropical stage are based on analyses from the NOAA Marine Prediction Center and Environment Canada weather service.

Radar image for Hurricane Michael

Figure 4. Holyrood, Newfoundland (WTP) 1.5 km AGL Constant Altitude Plan Position Indicator (CAPPI ) image at 2145 UTC, 19 October 2000. Eye is located west-northwest near the fifth range ring (285°/210 km). Surface position of Michael was located west-southwest of the radar site off the edge of the display (image courtesy of the Environment Canada weather service).


Last updated January 11, 2001