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Space Topics: Near Earth Objects
The Torino Scale
The Torino scale is a color-coded advisory system that enables
near-Earth object (NEO) researchers to place objects within a potential
threat range from zero -- where there is virtually no chance of collision,
to 10 -- where global catastrophe is certain. It was first adopted in 1999
by a working group of the International Astronomical Union (IAU) at a meeting
co-sponsored by The Planetary Society in Torino, Italy. In
2005, astronomers revised the Torino scale to make it easier for the public to understand.
No Hazard
(White Zone) |
0 |
The likelihood of a collision is zero,
or is so low as to be effectively zero. Also applies to small objects
such as meteors and bodies that burn up in the atmosphere as well as
infrequent meteorite falls that rarely cause damage. |
Normal
(Green Zone) |
1 |
A routine discovery in which a pass
near the Earth is predicted that poses no unusual level of danger.
Current calculations show the chance of collision is extremely unlikely
with no cause for public attention or public concern. New telescopic
observations very likely will lead to re-assignment to Level 0. |
Meriting Attention
by Astronomers
(Yellow Zone) |
2 |
A discovery, which may become routine
with expanded searches, of an object making a somewhat close but not
highly unusual pass near the Earth. While meriting attention by astronomers,
there is no cause for public attention or public concern as an actual
collision is very unlikely. New telescopic observations very likely
will lead to re-assignment to Level 0. |
| 3 |
A close encounter, meriting attention
by astronomers. Current calculations give a 1% or greater chance of
collision capable of localized destruction. Most likely, new telescopic
observations will lead to re-assignment to Level 0. Attention by public
and by public officials is merited if the encounter is less than a
decade away. |
| 4 |
A close encounter, meriting attention
by astronomers. Current calculations give a 1% or greater chance of
collision capable of regional devastation. Most likely, new telescopic
observations will lead to re-assignment to Level 0. Attention by public
and by public officials is merited if the encounter is less than a
decade away. |
Threatening
(Orange Zone) |
5 |
A close encounter posing a serious,
but still uncertain threat of regional devastation. Critical attention
by astronomers is needed to determine conclusively whether or not a
collision will occur. If the encounter is less than a decade away,
governmental contingency planning may be warranted. |
| 6 |
A close encounter by a large object
posing a serious but still uncertain threat of a global catastrophe.
Critical attention by astronomers is needed to determine conclusively
whether or not a collision will occur. If the encounter is less than
three decades away, governmental contingency planning may be warranted. |
| 7 |
A very close encounter by a large object,
which if occurring this century, poses an unprecedented but still uncertain
threat of a global catastrophe. For such a threat in this century,
international contingency planning is warranted, especially to determine
urgently and conclusively whether or not a collision will occur. |
Certain Collisions
(Red Zone) |
8 |
A collision is certain, capable of causing
localized destruction for an impact over land or possibly a tsunami
if close offshore. Such events occur on average between once per 50
years and once per several 1000 years. |
| 9 |
A collision is certain, capable of causing
unprecedented regional devastation for a land impact or the threat
of a major tsunami for an ocean impact. Such events occur on average
between once per 10,000 years and once per 100,000 years. |
| 10 |
A collision is certain, capable of causing
global climatic catastrophe that may threaten the future of civilization
as we know it, whether impacting land or ocean. Such events occur on
average once per 100,000 years, or less often. |
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