Tornado - Definition and Facts
Unique identifier / Notation: MH0059
Synonyms: Twister, Land spout, Cold air funnel, Waterspout, Funnel, Whirlwind.
Type Meteorological and Hydrological
Cluster: Wind Related
Coordinating agency or organization: World Meteorological Organization (WMO)
A tornado is a rotating column of air, extending from the base of a cumuliform cloud, and often visible as a condensation funnel in contact with the ground, and/or attendant circulating dust or debris cloud at the ground (WMO, 2017).
Primary reference(s)
WMO, 2017. International Cloud Atlas: Tornado. World Meteorological Organization (WMO). Accessed 25 November 2019.
Additional scientific description
A large tornado in which the condensation funnel is at least as wide horizontally at the ground as it is in height from the ground to the cloud base may be referred to as a wedge tornado. During the dissipation stage of a tornado, the condensation funnel will shrink and narrow in width, becoming rope-like (a rope funnel), and may also become contorted. Some tornadoes may contain secondary vortices within the main circulation (suction vortices or subvortices) (WMO, 2017a).
Metrics and numeric limits
Tornadoes can be classified into the following distinct formation groups (WMO, 2017b):
- Type I (in association with supercells; WMO, no date),
- Type II (in association with quasi-linear convective systems),
- and Type III (localised convective and shear vortices – these comprise Landspouts, Waterspouts and Cold-air funnels).
Definitions for the Type III tornados are as follows (WMO, 2017b):
- Landspout: A tornado that does not arise from organised storm-scale rotation and is therefore not associated with a wall cloud (murus) or a mesocyclone.
- Waterspout: A tornado occurring over water. It is normally a relatively small, weak rotating column of air over open water below a Cumulonimbus or Cumulus congestus cloud.
- Cold-air funnel: A funnel cloud or (rarely) a small, relatively weak tornado that can develop from a small shower or thunderstorm when the air aloft is unusually cold.
The strength of a tornado can be estimated from the degree of damage caused using the Enhanced Fujita scale (Wind Science and Engineering Center, 2004; National Weather Service, no date).
Table 21. Enhanced Fujita scale for rating the intensity of tornadoes
| Enhanced Fujita scale number | Three second gust speed | Damage |
| 0 | 29.2−38.1 m/s 105−137 km/h |
Minor damage: Tiles blown off or parts of a roof peeled off; damage to gutters or sidings; branches broken off trees; shallow-rooted trees toppled |
| 1 | 38.3−49.4 m/s 138−178 km/h |
Moderate damage: Significant roof damage; windows broken; exterior doors damaged or lost; mobile homes overturned or badly damaged |
| 2 | 49.7−60.6 m/s 179−218 km/h |
Considerable damage: Roofs torn off well-constructed homes; houses moved off their foundations; mobile homes completely destroyed; large trees snapped or uprooted; cars thrown in air |
| 3 | 60.8−73.9 m/s 219−266 km/h |
Severe damage: Entire storeys of well-constructed houses destroyed; significant damage to large buildings; houses with weak foundations blown away; trees begin to lose their bark |
| 4 | 74.2−89.4 m/s 267−322 km/h |
Extreme damage: Well-constructed houses demolished; cars thrown significant distances; top-storey exterior walls of masonry buildings likely collapse |
| 5 | >89.4 m/s >322 km/h |
Massive/incredible damage: Well-constructed houses swept away; steel-reinforced concrete structures critically damaged; high-rise buildings sustain severe structural damage; trees usually completely debarked, stripped of branches and snapped |
Key relevant UN convention / multilateral treaty
Not identified.
Examples of drivers, outcomes and risk management
Owing to the unpredictable nature of tornados, protecting the public is focused on education and outreach which provide information on the tornado as a threat, how to identify a tornado and practical measures on how individuals can protect themselves, and how to find and watch warning systems that alert the public (CDC, 2020).
Since the advent of Doppler Radar, lead times for tornado warnings have increased from when a tornado first touches the ground to upwards of 14 to 20 minutes or more beforehand (WMO, 2017b; National Geographic, 2019).
This article was originally published in the United Nations Office for Disaster Risk Reduction (UNDRR) on this link Tornado | UNDRR (https://www.undrr.org/understanding-disaster-risk/terminology/hips/mh0059)
References
CDC, 2020. Staying Safe in a Tornado. Centers for Disease Control and Prevention (CDC). Accessed 25 March 2021.
National Geographic, 2019. What we know – and what we don’t – about the science of tornadoes. Accessed 2 November 2021.
National Weather Service, no date. The Enhanced Fujita Scale (EF Scale). Accessed 25 March 2021.
Wind Science and Engineering Center, 2004. A Recommendation for an Enhanced Fujita Scale (EF Scale). Accessed 25 March 2021.
WMO, no date. Glossary: Supercell. World Meteorological Organization (WMO). Accessed 25 March 2021.
WMO, 2017a. International Cloud Atlas Manual on the Observation of Clouds and Other Meteors. WMO-No. 407. World Meteorological Organization (WMO). Accessed 25 November 2019.
WMO, 2017b. Guidelines for Nowcasting Techniques. WMO-No. 1198. World Meteorological Organization (WMO). Accessed 2 November 2020.
Published by
Goals we are supporting through this initiative
