International Fujita scale
The International Fujita scale (abbreviated as IF-Scale) rates the intensity of tornadoes and other wind events based on the severity of the damage they cause.[1] It is used by the European Severe Storms Laboratory (ESSL) and is being worked on by various other organizations including Deutscher Wetterdienst (DWD) and State Meteorological Agency (AEMET). The scale is intended to be analogous to the Fujita and Enhanced Fujita scales, while being more applicable internationally by accounting for factors such as differences in building codes.
In 2018, the first draft version of the IF-scale, version 0.10 was published. This version was based on a 12-step rating scale. Over the next few years, dozens of tornadoes would be rated on this version of the scale. Most notably, the 2021 South Moravia tornado received a rating (IF4) and full damage survey on the IF-scale conducted by ESSL, the Czech Hydrometeorological Institute and four other organizations.[2] On May 6th, 2023, version 0.99.9d was published, which changed it to a 9-step rating scale.[3]
2018 version
| IF0- | IF0 | IF0+ | IF1- | IF1 | IF1+ | IF2- | IF2 | IF2+ | IF3 | IF4 | IF5 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| Weak | Strong | Violent | |||||||||
| Significant | |||||||||||
| Intense | |||||||||||
Parameters
The 12 categories for the International Fujita scale are listed below, in order of increasing intensity. Although the wind speeds and photographic damage examples are updated, which are more or less still accurate. However, for the actual IF-scale in practice, damage indicators (the type of structure which has been damaged) are predominantly used in determining the tornado intensity. The IF-scale steps are defined by a central value and an error. The errors have been estimated to be 30% of the central value, resulting in overlapping speed ranges. The distances between the central values of the steps have been so chosen that the upper bound exceeds the central value of the next step, ensuring a balance between the resolution of the scale and the expected errors. Since ESSL required that the steps be consistent with the original Fujita scale, they introduced steps with – and + suffixes indicating steps one third higher or lower than the central value of the original scale, e.g. F1- equals “F2 - 1⁄3F2” and F2+ equals “F2 + 1⁄3F2”. Above F2, such a subdivision was not introduced and only full steps are used.
| Scale | Wind speed (Estimated) | ||
| mph | km/h | m/s | |
| IF0- | 45 ± 14 | 72 ± 22 | 20 ± 6 |
| IF0 | 56 ± 17 | 90 ± 27 | 25 ± 7 |
| IF0+ | 67 ± 20 | 108 ± 32 | 30 ± 9 |
| IF1- | 70 ± 24 | 128 ± 38 | 36 ± 11 |
| IF1 | 92 ± 28 | 149 ± 45 | 41 ± 12 |
| IF1+ | 106 ± 32 | 170 ± 51 | 47 ± 14 |
| IF2- | 120 ± 36 | 193 ± 58 | 54 ± 16 |
| IF2 | 135 ± 40 | 217 ± 65 | 60 ± 18 |
| IF2+ | 150 ± 45 | 241 ± 72 | 67 ± 20 |
| IF3 | 182 ± 55 | 293 ± 88 | 81 ± 24 |
| IF4 | 234 ± 70 | 376 ± 113 | 105 ± 31 |
| IF5 | 290 ± 87 | 466 ± 140 | 130 ± 39 |
2023 version
On May 6th, 2023, version 0.99.9d was published, which changed it to a 9-step rating scale.[3] In this version, the wind speed damage indicator was introduced, which made it the first tornado intensity and damage scale to use measured wind speeds and Doppler weather radar measured wind speeds.[3]
| IF0 | IF0.5 | IF1 | IF1.5 | IF2 | IF2.5 | IF3 | IF4 | IF5 |
|---|---|---|---|---|---|---|---|---|
| Weak | Strong | Violent | ||||||
| Significant | ||||||||
| Intense | ||||||||
| Scale | Wind speed (Estimated) | ||
| mph | km/h | m/s | |
| IF0 | 55 | 90 | 25 |
| IF0.5 | 75 | 120 | 33 |
| IF1 | 90 | 150 | 40 |
| IF1.5 | 110 | 180 | 50 |
| IF2 | 135 | 220 | 60 |
| IF2.5 | 160 | 250 | 70 |
| IF3 | 180 | 290 | 80 |
| IF4 | 230 | 380 | 105 |
| IF5 | 290 | 470 | 130 |
Damage indicators, subclasses, and degrees of damage
The IF scale currently has 23 damage indicators (DI), each with a varying number of subclasses and degrees of damage (DoD).[3]
| DI Abbr. | Damage indicator (DI) | Subclasses | Degrees of damage |
|---|---|---|---|
| BS | Building - structure | A, AB, B, C, D, E, F | 0, 1A, 1B, 2 |
| BR | Building - roof | A, AB, B, C, D, E, F | 0, 1, 2 |
| BN | Building - non-structural elements | SW, SS, TW, TS, HW, HS | 0, 1, 2, 3 |
| BM | Building - anchoring | SM, SI, DB | 1 |
| VH | Road Vehichles | C, E, L, T | 0, 1, 2, 3, 4 |
| TR | Trees | W, A, S | 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 |
| TS | Tree stands | WA, S | 0, 1, 2, 3, 4 |
| WT | Wind turbines | A, S | 0, 1, 2, 3 |
| GH | Greenhouses | W, A, S | 0, 1, 2, 3 |
| TC | Train cars | S, F | 0, 1 |
| MH | Mobile homes / Static caravans | – | 0, 1, 2, 3, 4, 5 |
| PT | Poles and towers | W, S, T | 0, 1, 2 |
| SP | Solar Panels | – | 0, 1 |
| FC | Fences | W, S | 0, 1 |
| FW | Free-standing walls | Z, A, AB, B, C, D, E, F | 1, 2 |
| SN | Signs and billboards | T, M | 0, 1, 2 |
| SW | Connected scaffolding | – | 1 |
| CP | Carports / garages | – | 1 |
| SS | Service Station Canopies | – | 0, 1, 2, 3 |
| SC | Shipping Containers | A, B, C, D, E, F | 1, 2, 3 |
| CR | Cranes | G, t | 1, 2 |
| OF | Outdoor Furniture | L, H | 0, 1, 2 |
| WM | Wind Speed Measurement | See section below | See section below |
DI: Wind Speed Measurement
A unique feature of the International Fujita scale compared to the Fujita or Enhanced Fujita scale is a new damage indicator based on measured wind speeds. For the IF scale, only wind speeds measured at or below 10 metres (11 yd) can be used to determine a rating. Doppler weather radar measurements are also able to be used to determine a rating if they are measured within damaging distance. For radar measurements, any readings below 60 metres (66 yd) can be used to determine a rating.[3]
Three second measurement
For three-second wind speed measurements, it is assumed to be an average of 88.8% of the three-second measurement.[3]
| Degree of Damage (DoD) / Measured IF# Speed | Three Second Measurement | ||
| mph | km/h | m/s | |
| DoD 0 / IF0 | 42.5–56 | 69–91 | 19–25 |
| DoD 0.5 / IF0.5 | 57–74.5 | 92–120 | 26–32 |
| DoD 1 / IF1 | 73.9–90 | 119–146 | 33–40 |
| DoD 1.5 / IF1.5 | 91–109 | 147–176 | 40–49 |
| DoD 2 / IF2 | 110–129 | 177–208 | 50–57 |
| DoD 2.5 / IF2.5 | 129–156.5 | 209–242 | 58–70 |
| DoD 3 / IF3 | 151–183.9 | 243–296 | 68–82 |
| DoD 4 / IF4 | 184–231 | 297–373 | 83–103 |
| DoD 5 / IF5 | ≥232 | ≥374 | ≥104 |
Two second measurement
For two-second wind speed measurements, it is assumed to be an average of 90.9% of the two-second measurement.[3]
| Degree of Damage (DoD) / Measured IF# Speed | Two Second Measurement | ||
| mph | km/h | m/s | |
| DoD 0 / IF0 | 43.4–58 | 70–94 | 20–26 |
| DoD 0.5 / IF0.5 | 59–74 | 95–120 | 27–33 |
| DoD 1 / IF1 | 75–93 | 121–150 | 34–40 |
| DoD 1.5 / IF1.5 | 93–111.8 | 150–180 | 42–50 |
| DoD 2 / IF2 | 111.8–132 | 180–213 | 51–59 |
| DoD 2.5 / IF2.5 | 133–154 | 214–248 | 60–68 |
| DoD 3 / IF3 | 154–188 | 249–303 | 69–84 |
| DoD 4 / IF4 | 188–237 | 304–382 | 85–106 |
| DoD 5 / IF5 | ≥238 | ≥383 | ≥107 |
One second measurement
For one-second wind speed measurements, it is assumed to be an average of 92.5% of the one-second measurement.[3]
| Degree of Damage (DoD) / Measured IF# Speed | One Second Measurement | ||
| mph | km/h | m/s | |
| DoD 0 / IF0 | 44.1–58 | 71–95 | 20–26 |
| DoD 0.5 / IF0.5 | 59–76 | 96–123 | 27–34 |
| DoD 1 / IF1 | 77–94 | 124–152 | 35–42 |
| DoD 1.5 / IF1.5 | 95–113 | 153–183 | 43–51 |
| DoD 2 / IF2 | 114–134 | 184–220 | 52–60 |
| DoD 2.5 / IF2.5 | 135–156 | 218–252 | 61–70 |
| DoD 3 / IF3 | 157–191 | 253–308 | 71–85 |
| DoD 4 / IF4 | 192–241 | 309–388 | 86–107 |
| DoD 5 / IF5 | ≥241.5 | ≥389 | ≥108 |
Zero second measurement
For zero-second wind speed measurements, it is assumed to be an instantaneous wind speed measurement.[3] This can only be used if it was 10Hz or higher sample rate.[3][6]
| Degree of Damage (DoD) / Measured IF# Speed | Zero Second Measurement | ||
| mph | km/h | m/s | |
| DoD 0 / IF0 | 47.8–64 | 77–103 | 22–28 |
| DoD 0.5 / IF0.5 | 64–82 | 104–132 | 29–36 |
| DoD 1 / IF1 | 82–101.9 | 133–164 | 37–45 |
| DoD 1.5 / IF1.5 | 102–123 | 165–198 | 46–55 |
| DoD 2 / IF2 | 124–145 | 199–234 | 56–65 |
| DoD 2.5 / IF2.5 | 146–169 | 235–273 | 66–75 |
| DoD 3 / IF3 | 170–207 | 274–333 | 76–92 |
| DoD 4 / IF4 | 208–260 | 334–420 | 93–116 |
| DoD 5 / IF5 | ≥261 | ≥421 | ≥117 |
See also
References
- "The International Fujita (IF) Scale Tornado and Wind Damage Assessment Guide" (PDF). ESSL.org. European Severe Storms Laboratory. Retrieved 26 June 2022.
- Tomás Púcik; David Rúva; Miroslav Singer; Miloslav Stanëk; Pieter Groenemeijer (23 June 2022). "Damage Survey of the Violent Tornado in Southeast Czechia on 24 June 2021" (PDF). European Severe Storms Laboratory. pp. 1–31. Retrieved 16 May 2023.
- "The International Fujita (IF) Scale" (PDF). European Severe Storms Laboratory. Retrieved 8 May 2023.
- "Severe Thunderstorm Climatology". Archived from the original on 2012-10-04. Retrieved 2022-07-17.
- "Severe Thunderstorm Climatology". Archived from the original on 2012-10-04. Retrieved 2022-07-17.
- A. C. M. Beljaars (1 December 1987). "The Influence of Sampling and Filtering on Measured Wind Gusts". Journal of Atmospheric and Oceanic Technology. 4 (4): 613–626. doi:10.1175/1520-0426(1987)004<0613:TIOSAF>2.0.CO;2. ISSN 1520-0426. Retrieved 16 May 2023.