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Tropical Storm Allison
Tropical Depression Two
Tropical Storm Barry
Tropical Storm Chantal
Tropical Storm Dean
Hurricane Erin
Hurricane Felix
Hurricane Gabrielle
Tropical Depression Nine
Hurricane Humberto
Hurricane Iris
Tropical Storm Jerry
Hurricane Karen
Tropical Storm Lorenzo
Hurricane Michelle
Hurricane Noel
Hurricane Olga

Tropical Cyclone Report

Tropical Storm Chantal

14 - 22 August 2001

James L. Franklin
National Hurricane Center
6 September 2001
Revised: 15 November 2001

Poorly-organized for most of its life cycle, Chantal was a tropical storm that made landfall near the Mexico-Belize border. Development was hindered by a strong low- to mid-level easterly flow that contributed to a rapid translation speed and persistent westerly shear.

a. Synoptic History

Chantal developed from a tropical wave that crossed the coast of Africa and entered the far eastern Atlantic on 11 August. Although convection diminished after the system left the African continent, a broad surface low and a closed circulation developed by the 13th. Early on the 14th, convection increased northwest of the center. By 1800 UTC on the 14th, when the system was about 1300 n mi east of the southern Windward Islands, the convection was sufficiently well-established and organized to consider the low to be a tropical depression. A QuikSCAT pass near this time (at 2000 UTC), indicated a broad closed cyclonic surface circulation.

The "best track" chart of Chantal's path is given in Figure 1, with the wind and pressure histories shown in Figure 2 and Figure 3, respectively. The best track positions and intensities are listed in Table 1. South of a strong mid-level ridge, the depression moved rapidly westward at about 23 kt. The convective structure changed little for the next 36 hours under easterly wind shear, but banding developed early on the 16th. Even though the satellite presentation continued to improve throughout the day, reconnaissance aircraft data near 2100 UTC could not define a closed circulation. It is impossible to determine precisely when the depression's surface circulation degenerated into an open wave, but a QuikSCAT pass suggests that this may have occurred near 1200 UTC on the 16th, when the consensus of Dvorak intensity estimates reached tropical storm strength. At this time the system's forward speed was increasing to near 30 kt.

Early on the 17th, the wave sped through the Windward Islands, where there was a report of sustained tropical storm force winds from Martinique. After passing through the islands, the wave's speed slowed to about 20 kt and its convective pattern, which had been limited and linear, expanded and became more symmetric. At 1400 UTC, a reconnaissance aircraft was able to determine that a small closed circulation had redeveloped about 250 n mi south of St. Croix; with winds still near 35 kt, the wave had become a tropical storm.

Over the next 18 h the pressure fell from 1010 mb to 1003 mb and Chantal's maximum winds increased to 55 kt. During the morning of the 18th, however, Chantal weakened slightly as its forward speed increased again (to 24 kt) and its low-level center raced ahead of the deep convection. This was followed by a second episode of slowing and strengthening that ended at 0600 UTC on the 19th, when the pressure fell to 997 mb and the winds increased to 60 kt. At this time Chantal was moving westward at 12 kt about 160 n mi south of Kingston, Jamaica. It is possible that the apparent reduction in forward speed was a result of a reorganization or reformation of the low-level circulation.

During the day on the 19th, Chantal again became disorganized with an ill-defined center located well to the west-southwest of the main area of deep convection. Although the pressure rose sharply, to 1008 mb, reconnaissance aircraft continued to report strong winds in the trailing convection. Chantal turned slightly to a west-northwesterly heading, and maintained a near steady state structure in the northwestern Caribbean Sea with 50 kt winds until late on the 20th. (During this time, there were large differences, often 60 n mi or more, between aircraft- and satellite-based position fixes. Since the wind centers found by the aircraft were probably not representative of the vorticity center of the system, the best track through this period is based primarily on the satellite data.)

When Chantal approached Belize and the Yucatan Peninsula late on the 20th, the storm became much better organized. Reconnaissance aircraft, which had for days had difficulty closing off the circulation on the cyclone's south side, found a well-defined center for the first time, with the strongest winds closer to the center than was observed previously. Water vapor imagery indicated that the upper-level westerly vertical wind shear was decreasing, and the cyclone's forward speed again decreased, from 15 to 10 kt. That these latter two events would occur simultaneously suggests that a reduction in the low-level easterly flow also contributed to this final period of development. The pressure dropped steadily in the final hours before landfall, reaching an estimated 999 mb when the center came ashore near the Belize/Mexico border around 0200 UTC on the 21st. The maximum winds at landfall are estimated to be 60 kt. As Chantal made landfall its forward speed continued to slow, and radar imagery from Belize showed that the system's organization continued to improve for several hours as it slowly moved inland. Had Chantal remained over water for another hour or two, it is quite likely that it would have become a hurricane.

Over the next day and a half Chantal moved westward and then southwestward over the Yucatan and southeastern Mexico, weakening to a depression on the 22nd at 0000 UTC, and dissipating by 1800 UTC that day.

b. Meteorological Statistics

Observations in Chantal (Figure 2 and Figure 3) include satellite-based Dvorak technique intensity estimates from the Tropical Analysis and Forecast Branch (TAFB), the Satellite Analysis Branch (SAB) and the U. S. Air Force Weather Agency (AFWA), as well as flight-level and dropwindsonde observations from flights of the 53rd Weather Reconnaissance Squadron of the U. S. Air Force Reserve Command. Dropwindsonde data just prior to landfall were also obtained from a NOAA Office of Marine and Aviation Operations WP-3D research flight of the NOAA Hurricane Research Division.

Chantal's maximum intensity of 60 kt was attained on two occasions. In the first instance, the peak flight-level wind from reconnaissance aircraft in Chantal was 82 kt, measured at a flight level of 850 mb at 1123 UTC on the 19th. While the standard reduction for this altitude would indicate that Chantal was a hurricane with a surface equivalent of 66 kt, several factors suggest that this was not the case. First, the area of flight-level winds that supported hurricane intensity were extremely limited, and therefore may not have been representative of the cyclone's circulation. Second, Chantal's minimum pressure was rising rapidly at the time of the observation; this is consistent with the view that the peak wind observed by the aircraft was primarily a local convective, rather than a cyclone-scale event. The most convincing evidence, however, comes from soundings in the storm core and environment in the right semicircle, which show significant shear in the lower troposphere. The Kingston sounding from 1200 UTC on the 18th, for example, shows about 20 kt of easterly shear between 925 and 700 mb. A dropwindsonde at 2340 UTC 19 August, which reported 700 mb winds of 60 kt, had a surface wind of only 38 kt. In this environment, a lower than normal surface wind reduction would be appropriate on the right-hand side of the cyclone.

Chantal also reached an intensity of 60 kt just prior to landfall. This estimate is supported by a surface wind of 58 kt from a GPS dropwindsonde, and a surface-adjusted flight-level wind of 57 kt. Numerous dropsonde profiles from Air Force and NOAA aircraft just before landfall indicate that the surface adjustment factors had returned to more typical values. The estimated landfall pressure of 999 mb is based largely on an extrapolation of the deepening trend observed by reconnaissance aircraft up until the last report at 2307 UTC on the 20th.

Ship reports of winds of tropical storm force associated with Chantal are given in Table 2, and selected surface observations from land stations are given in Table 3. In the Lesser Antilles, the automated site on Martinique (78922, station elevation 33 m) reported a 10-min sustained wind of 34 kt at 0600 UTC on the 17th. Based on aircraft and dropsonde reports, the strongest winds at landfall in the western Caribbean were likely in a band roughly 30-40 n mi north of the center, near Chinchorro Banco. Unfortunately, there are no observing stations in this area. Caye Caulker, Belize reported a gust of 62 kt, and Chetumal, Mexico reported a gust of 54 kt.

Chantal produced copious amounts of rain (Table 3). The largest storm total (13.41 in) was reported from Chetumal. Several sites in Belize reported totals in the 8-10 in range.

c. Casualty and Damage Statistics

There are no deaths officially associated with Chantal while it was a tropical cyclone. However, two deaths were reported in Trinidad on the 16th from lightning associated with the passage of the tropical wave through the Lesser Antilles.

In Belize, damage estimates are near $4 million, primarily from wave damage to sea-walls and piers, agricultural losses from wind and floods, and erosion of roads due to floods. About 8000 persons were evacuated, mainly from offshore islands. About 2500 persons were evacuated from vulnerable areas in Mexico. Reports from Mexico indicate downed trees but otherwise no significant damage.

d. Forecast and Warning Critique

Average official track errors for Chantal were 44, 74, 84, 106, and 135 n mi for the 12, 24, 36, 48, and 72 h forecasts, respectively (Table 4). The number of cases ranged from 16 at 12 h to 6 at 72 h. These errors are lower than the average official track errors for the 10-yr period 1991-2000 (44, 82, 118, 151, and 226 n mi, respectively). This is not surprising for a relatively straight-moving storm in the deep tropics. A number of guidance models had lower errors than the official forecast through 36 h, including the GFDI and UKMI. None of the guidance models (other than CLIPER) had errors lower than the official forecast at 72 h. It should be noted that forecast errors during the tropical depression stage, which are not part of the official verification, were considerably higher.

Average official track errors were close to those of the AVNI. Of interest is a modest but persistent rightward bias in the official forecasts (Figure 4). This was related to a reliance on the AVNI, which has performed well so far this year. While the formal AVNI verification for Chantal (Table 4) shows good results, this is misleading. The AVN center-tracking algorithm frequently failed to follow the cyclone for the duration of the forecast period (there were only four 48 h AVNI forecasts and no 72 h AVNI forecasts). Nonetheless, a low-level vorticity center was easily followed in the AVN fields, and this influenced the official forecasts. While the AVN repeatedly took the vorticity center into the eastern Gulf of Mexico, none of these poor forecasts are officially verified because the tracker did not recognize the vorticity center as the tropical cyclone.

Average official intensity errors were 6, 8, 12, 23, and 23 kt for the 12, 24, 36, 48, and 72 h forecasts, respectively. For comparison, the average official intensity errors over the 10-yr period 1991-2000 are 7, 11, 14, 16, and 20 kt, and the SHIPS model for Chantal had errors of 8, 9, 10, 16, and 16 kt, respectively. While the shorter-range forecasts for Chantal were more accurate than the official long-term averages and the SHIPS guidance, the 48 and 72 h forecasts were not. Inspection shows that every 36, 48, and 72 official intensity forecast was an overestimate (Fig. 5). Two factors may have contributed to these overly-aggressive forecasts: reliance on global model predictions of a developing anticyclone over Chantal, and, in the western Caribbean Sea, an atypical vertical shear distribution that forced the low-level circulation center to repeatedly move out ahead of the main convection.

Table 5 lists the watches and warnings associated with Chantal. Although Chantal was not a tropical storm when it moved through the Lesser Antilles, the remnant wave did produce some tropical storm force winds. Since the system was not a tropical cyclone at that time, no warnings were in effect during the passage. Had a mechanism existed to issue tropical storm warnings in the absence of a tropical cyclone, it would have been possible to maintain warnings for tropical storm force winds.

Official track forecasts anticipated a close approach to Jamaica and the Cayman Islands, which resulted in warnings that did not verify. Chantal made landfall near the Mexico/Belize border, roughly in the center of the warning area. A tropical storm warning was issued for a portion of the Gulf coast of Mexico in anticipation of Chantal's re-emergence over water into the Gulf. However, Chantal remained over land.

Table 1: Table 1. Best track for Tropical Storm Chantal, 14-22 Aug. 2001. Positions and pressures given during the tropical wave stage are representative values for the low-level vorticity center.
Wind Speed
Lat. (°N)Lon. (°W)
14 / 180012.837.0101025tropical depression
15 / 000012.939.3101025"
15 / 060012.641.6101025"
15 / 120012.343.9101030"
15 / 180012.346.3101030"
16 / 000012.448.8101030"
16 / 060012.451.3101130"
16 / 120012.753.9101230tropical wave
16 / 180012.757.2101230"
17 / 000013.160.6101135"
17 / 060013.362.8101135"
17 / 120013.764.6101035tropical storm
17 / 180014.266.4100635"
18 / 000014.468.2100445"
18 / 060014.670.4100355"
18 / 120014.872.9100650"
18 / 180015.375.2100350"
19 / 000015.377.2100255"
19 / 060015.478.499760"
19 / 120015.779.6100460"
19 / 180016.281.1100555"
20 / 000016.782.6100750"
20 / 060017.184.1100850"
20 / 120017.585.6100750"
20 / 180017.986.7100655"
21 / 000018.187.7100060"
21 / 060018.288.1100055"
21 / 120018.488.7100245"
21 / 180018.689.5100635"
22 / 000018.790.3100725tropical depression
22 / 060018.491.2100825"
22 / 120017.992.2100925"
22 / 1800dissipated
21 / 020018.187.899960landfall near Mexico/Belize border
19 / 060015.478.499760minimum pressure

Table 2: Selected ship observations of tropical storm or greater winds associated with Tropical Storm Chantal, 14 - 22 August 2001.
Ship Name or Call SignDate/Time (UTC)Lat. (°N)Lon. (°W)Wind dir/speed (deg/kt)Pressure (mb)
C6LF818 / 120016.471.4090/37 1011.5 
C6RO718 / 120016.371.1110/37 1012.0 
C6RO718 / 150015.770.9100/38 1012.8 

Table 3: Tropical Storm Chantal selected surface observations, 14 - 22 August 2001.
Maximum Surface Wind Speed
Gust (kts)
(storm total)
Lesser Antilles
Martinique-Caravelle  17/060 34e 41    
Martinique-Vauclin  17/040  49    
Towerhill       9.81 
Libertad21/090 1001.5      9.08 
Consejo       8.99 
Belize City Intl. Airpt.21/050 1007.0 21/050 19 35   8.24 
Middlesex       7.93 
Melinda       7.06 
Gales Point       6.80 
Bigfalls Plantation       5.20 
Half Moon Caye20/210 1007.1       
Caye Caulker21/020 1005.8 21/010  62    
Chetumal Tecnologico       13.41 
Chetumal Observatorio21/080 1005.4 21/070  54   13.05 
Chetumal (Air Force)21/100 1008.0 21/100 35 45    
Nicolas Bravo       11.28 
La Union       5.59 
Cancun       1.68 

e10-min average.

Table 4: Preliminary track forecast evaluation for Tropical Storm Chantal - heterogeneous sample. Errors in nautical miles for tropical storm and hurricane stages with number of forecasts in parentheses. Bold numbers represent forecasts which were better than the official forecast.
Forecast TechniquePeriod (hours)
CLIP43 (16)81 (14)97 (12)92 (10)125 (6)
GFDI35 (13)56 (13)67 (11)77 (9)176 (5)
LBAR43 (16)79 (14)107 (12)137 (10)214 (6)
AVNI44 (10)70 (10)97 (8)105 (4)
BAMD45 (16)77 (14)119 (12)171 (10)298 (6)
BAMM43 (16)60 (14)83 (12)111 (10)161 (6)
BAMS68 (16)108 (14)146 (12)170 (10)195 (6)
NGPI75 (5)89 (5)104 (5)150 (5)242 (4)
UKMI43 (14)55 (12)79 (11)117 (9)182 (2)
GUNS57 (4)65 (4)62 (4)100 (4)164 (3)
NHC Official44 (16)74 (14)84 (12)106 (10)135 (6)
NHC Official (1991-2000 mean)44 (2049)82 (1835)118 (1646)151 (1475)226 (1187)
*Output from these models was unavailable at time of forecast issuance.

Table 5: Watch and warning summary, Tropical Storm Chantal, 14 - 22 August 2001.
16/0300Tropical Storm Watch issuedBarbados, St.Vincent, and St.Lucia 
16/0900Tropical Storm Watch changed to Tropical Storm WarningBarbados, St.Vincent, and St.Lucia 
16/0900Tropical Storm WatchGrenadines and Dominica 
16/1200Tropical Storm WatchMartinique 
16/1500Tropical Storm Watch changed to Tropical Storm WarningGrenadines and Dominica 
16/1500Tropical Storm Watch issuedGrenada and Tobago 
16/1600Tropical Storm Watch issuedGuadeloupe 
17/0000Tropical Storm Watches/Warnings discontinuedBarbados, St.Vincent, St.Lucia, Grenadines, Dominica, Grenada and Tobago 
17/1200Tropical Storm Watch discontinuedMartinique and Guadeloupe 
17/2100Hurricane Watch issuedJamaica 
18/0000Tropical Storm Watch issuedCayman Is. 
18/0900Hurricane Warning replaces Hurricane WatchJamaica 
18/1500Tropical Storm Warning/Hurricane Watch replace Hurricane WarningJamaica 
18/1500Tropical Storm Warning/Hurricane Watch replace Tropical Storm WatchCayman Is. 
19/0000Tropical Storm Watch issuedBelize 
19/0300Tropical Storm Watch issuedChetumal to Cancun, Mexico 
19/0900Hurricane Watch discontinuedJamaica 
19/1500Hurricane Watch replaces Tropical Storm WatchBelize City, Belize to Cancun, Mexico 
19/1500Tropical Storm Warning discontinuedJamaica 
20/0000Hurricane Watch discontinuedCayman Is. 
20/0300Tropical Storm Warning issuedBelize 
20/0300Tropical Storm Warning issuedChetumal to Cancun, Mexico 
20/1200Tropical Storm Warning discontinuedCayman Is. 
20/2100Tropical Storm Warning issuedProgreso to Carmen, Mexico 
21/1500Hurricane Watch discontinuedBelize 
21/1500Hurricane Watch discontinuedChetumal to Cancun, Mexico 
21/2100Tropical Storm Warning discontinuedBelize 
21/2100Tropical Storm Warning discontinuedChetumal to Cancun, and Campeche to Progreso, Mexico 
21/2100Tropical Storm Watch issuedCarmen to Veracruz, Mexico 
22/1500All watches/warnings discontinuedCampeche to Veracruz, Mexico 

Best track positions for Tropical Storm Chantal

Figure 1: Best track positions for Tropical Storm Chantal, 14-22 Aug. 2001. Positions given by arrowheads during the tropical wave stage represent the location of the low-level vorticity center.

Best track maximum sustained surface wind speed curve for Tropical Storm Chantal

Figure 2: Best track maximum sustained surface wind speed curve for Tropical Storm Chantal, 14-22 Aug. 2001, and the observations on which the best track curve is based. Aircraft observations have been adjusted for elevation using 90%, 80%, and 80% reduction factors for observations from 700 mb, 850 mb, and 1500 ft, respectively. Dropwindsonde observations include actual 10 m winds (sfc), as well as surface estimates derived from the mean wind over the lowest 150 m of the wind sounding (LLM), and from the sounding boundary layer mean (MBL).Figure includes the period from 1200 UTC 16 August through 0600 UTC 17 August when Chantal was a tropical wave.

Best track minimum central pressure curve for Tropical Storm Chantal

Figure 3: Best track minimum central pressure curve for Tropical Storm Chantal, 14-22 Aug. 2001, and the observations on which the best track curve is based. Figure includes the period from 1200 UTC 16 August through 0600 UTC 17 August when Chantal was a tropical wave.

Selected (0000 and 1200 UTC) official track forecasts for Tropical Storm Chantal

Figure 4: Selected (0000 and 1200 UTC) official track forecasts (dashed lines, with 0, 12, 24, 36 ,48, and 72 h positions indicated) for Tropical Storm Chantal, 14-22 Aug. 2001. The best track is given by the thick solid line with positions given at 6 h intervals.

Selected (0000 and 1200 UTC) official intensity forecasts for Tropical Storm Chantal

Figure 5: Selected (0000 and 1200 UTC) official intensity forecasts (dashed lines) for Tropical Storm Chantal, 14-22 Aug. 2001. The best track intensity is given by the thick solid line.


Last modified: 30-Jan-2002