The search for Near Earth Objects (NEO) - Microplanets (comets, asteroids and meteoroids) that share our region of the solar system. Inspired by the work of Gene Shoemaker and a memorial lecture by Ken Russell from the Anglo Australian Observatory. The term Spaceguard was coined by Arthur C Clarke in his 1973 science fiction novel Rendezvous with Rama. The introduction has an uncanny September 11 coincidence. (Extract)
Tip: These pages are in
plain HTML. Try
Ctrl-F to "Find" any text you are interested in. Why so plain? - this page was started in 1997.
"No one wants to look back and regret actions not taken" - Dr David Suzuki, The Nature of Things.
'Many might say "But we
know of no one
that has ever died from an asteroid impact." That's true [in recent
times], but then who has ever died from a thermonuclear explosion?
Surely no one would claim that they are not dangerous?' - Arthur C
Clarke, Foreword to Rogue Asteroids and Doomesday Comets by Duncan
"No one has ever been killed by a meteorite in the presence of a meteoritist and a medical doctor!" - John Lewis
Recent items are near the top (posting date shown).
For more news see Spaceguard UK's News page, Spaceviews, NASA's Asteroid/Comet Impact Hazard news page and NEO Office News Page (NNN), The Planetary Society NEO News, The Cosmic Mirror , Cambridge Conference Network(CC), SpaceDaily, Tumbling Stone (SGF/NEODys), SpaceWeather.com (has a list of forthcoming close approaches), Asteroid/Comet Connection, Universe Today (UT- space news from around the Internet, updated every weekday)
Send us your NEO news tips for posting here.
That is why this is an unofficial web-site - there is no Spaceguard Survey in Australia at the present time. The web site has been started to support the re-establishment of the Australian Spaceguard Survey and to provide links to other Spaceguard-related sites.
It is evident that the Australian
Government is only interested in short term issues and is
to support a project which might not benefit mankind for decades, or
even centuries. One problem is that the bureaucracy does not have a
"pigeon hole" for this topic - it is not pure "science" and there is no
tangible enemy to make it a "defence" matter. Therefore the Australian
Spaceguard Survey will probably need
the support of individuals, corporations and societies.
1 April 1997 Canberra Times: "Asteroid watch might resume" - Sky watching for "killer rocks" in Australia could be resurrected after intervention by Prime Minister John Howard...Science Minister Peter McGauran said Mr Howard recently asked him, Education Minister Vanstane and Defeence Minister McLachlan to examine whether asteroid spotting should continue..."we're treating it as a case where individuals can fall between portfolios becuase they don't fit neatly in one or the other"...
Update March 1999: A glimmer of hope about Australian funding for Spaceguard: The Coordination Committee on Science and Technology (CCST) is a high level committee set up by the Government of the Commonwealth of Australia, comprising representatives of departments with an interest in or responsibility for science, technology and innovation matters. It lists "Near Earth Asteroids" under "Matters receiving attention in the current financial year"! . Copy here (for the record!)
September 1999: After a three
year break a professional search for Earth-threatening
asteroids will soon begin again in Australia. The project is a collaboration between astronomers at the University of Arizona and the Australian National University. It involves refurbishing a telescope at Siding Spring in New South Wales and providing a verysensitive electronic detector array, computer pointing control and automatic detection software.
The project will help to fill a huge gap in our ability to
which might collide with the Earth. Until now the only professional
were in the Northern Hemisphere - the southern half of the sky was not
Early detection of a potentially threatening asteroids is essential if
is to have sufficient time
to mitigate the threat. Even the moderate rocket power we have available today would be sufficient to deflect an asteroid away from a collision, provided that the action can be taken over decades and the asteroid is
given a little nudge during each orbit around the Sun.
Although the ANU/UA project is a welcome development
government funding for an additional telescope will be required if the
goals of the international Spaceguard Survey are to be achieved. That
goal is to
discover, within a decade, 90% of Earth-approaching asteroids with a diameter of 1 km or more. A collision by an asteroid of this size would be a grave threat to our civilisation and the death toll would likely be
in the hundreds of millions.
NASA NEO News - copy of ANU/UA Press Release
18 Mar 02 OPINION - There was good coverage of the Spaceguard issue on Australian TV yesterday. Science Minister Peter McGauran tried to accuse NEO researchers of "fear-mongering" and being "self-indulgent" - a sure sign of an uncomfortable politician. In fact none of the 91 scientists from 17 countries who signed the letter to the Federal Government earlier this year would benefit in any way from an Australian decision to fund Spaceguard - other than the knowledge that a blind spot in the south would be eliminated. However, the reaction to the programs was overwhelmingly supportive and I think Mr McGauran should discuss this issue with his colleagues. He suggested Spaceguard would take 5% out of the $18 million budget for astronomy in Australia - a sneaky way to try and eliminate support for Spaceguard from other astronomers. We are saying it is not strictly science research and it would be more appropriate to fund it from the huge defence budget. If you agree please tell your local member of federal parliament.
1 Feb 02: In a remarkable show of global solidarity more than 90 scientists from 17 countries have signed a letter to Australian Prime Minister John Howard, calling for a major Australian contribution to Spaceguard - the international effort to detect asteroids that might collide with the Earth. The signatories to the letter come from Australia, Canary Islands, Croatia, Czech Republic, Denmark, Germany, Greece, Israel, Italy, Poland, Romania, Russia, Spain, Sweden, Ukraine, United Kingdom and United States of America. They include leading asteroid researchers such as David Levy and Caroline Shoemaker - famous for discovering Comet Shoemaker Levy 9 that collided with Jupiter in 1994. The letter was organised by Jay Tate from the Spaceguard Centre in the UK and Dr Benny Peiser from Liverpool John Moores University, UK. Michael Paine from the Planetary Society Australian Volunteers assisted them. A PDF copy of the letter and press release can be viewed at http://www4.tpg.com.au/users/tps-seti/pr_oz_sg.pdf.
Updates: Space.com World's Asteroid Hunters Make Political Plea to Save Earth. Recipient list added to PDF document. 5 Feb 02 Canberra Times: Australia fails world on asteroids: scientists.
The Risk and Consequences of Asteroid/Comet Impact
The following table is based on data from the NEO weblinks and you are encouraged to follow those links for a more complete picture. There are some inconsistancies between these links due, in part, to a lack of observational information (which would be corrected by a full Spaceguard survey). Therefore the table is very approximate but it will give some idea of the threat posed by asteroid and comet impacts.
|Very approx size of object *||Equiv. Megatons of TNT ("Bravo"
|Odds in 50 years #||Consequences @|
|10 metres||20 kilotons||Annual||"Fireballs" burn up in atmosphere. Local hazard from debris and shockwaves. Possible trigger for nuclear warning systems. Smaller objects in much greater numbers pose a threat to spacecraft|
|100m||75 megatons||Earth:1 in 20
Inhabit:1 in 160
|Meteor crater, Wolfe Crater, Tunguska. Local direct destruction (eg 50km radius). Around 1 million fatalities.|
|500m||10,000||Earth:1 in 800
Inhabit:1 in 3,600
|Regional destruction. Short-term global climate (and economic) effects. Tsunami (tidal waves) devastate coastal areas. Around 35 million fatalities.|
|1km||100,000||Earth:1 in 2,000
Inhabit:1 in 6,000
|Medium-term global climate effects. Around 63 million fatalities.|
|2 km||1 million||Earth:
1 in 20,000
1 in 30,000
|Global catastrophe threshold. Severe long-term climate effects. Collapse of agriculture. Around 1500 million fatalities.|
|10km||100million||Earth:1 in 2 million
|K-T impact. Mass extinction (eg dinosaurs)|
These values are based on the estimated NEO population. Care should be taken when comparing the "odds in 50 years" with actual evidence of impacts with the Earth. See Poisson Distributions.
25 Nov 04 Icarus
population, size distribution, and impact hazard for the near-Earth
objects - Globally
destructive collisions (~1021 J) of asteroids 1 km or larger strike the
Earth once every 0.60±0.1 Myr on average. Regionally
collisions with impact energy greater than 4×1018 J (~200 m
strike the Earth every 56,000±6000 yr. Collisions in the
Tunguska event (4-8×1016 J) occur every 2000-3000 yr. This
analysis suggests that the odds shown in the above table improve by
about 5 times for 1km objects and less.
Another way of looking at the risk posed by asteroid/comet impact is to compare the chances of dying from selected causes. This table is based mostly on a paper by Clark Chapman and David Morrison and is for residents of the USA:
|Cause of death||Chances|
|Motor vehicle accident||1 in 100|
|Homicide||1 in 300|
|Melanoma (a skin cancer*)||1 in 300|
|Fire||1 in 800|
|Firearms accident||1 in 2,500|
|Electrocution||1 in 5,000|
|Asteroid/comet impact||1 in 20,000#|
|Passenger aircraft crash||1 in 20,000|
|Flood||1 in 30,000|
|Tornado||1 in 60,000|
|Venomous bite or sting||1 in 100,000|
|Food poisioning by botulism||1 in 3 million|
In other words, a US resident is 200 times more likely to die in car crash than from a NEO impact and 5 times more likely to die from a NEO impact than a venemous bite or sting.
Note that although an asteroid/comet impact is a very rare event, the number of people likely to be killed is greatly in excess of the other causes in the table. Compare the national US expenditure on "prevention" for all of these causes and it is evident that asteroid/comet detection is grossly under-funded.
For people living in low-lying coastal areas on the shoreline of deep oceans the risk could be several times greater due to the extra risk of tsunami.
Note: I have cheated with this picture - it is actually asteroid Ida which is 50km across - you will have to imagine it is only 1km (in fact the small dot to the right is a 1km companion asteroid "Dactyl"). Thank you to Dr. Christian Gritzner from EUROSPACE GmbH for pointing this out!
NEO Web Links has moved (getting too large for this page!)
The worldwide Spaceguard program should be able to detect several thousand "candidate" asteroids/comets over a fifteen year period for less than US$10 million per year. Compared with worldwide defence expenditure, and space exploration budgets, this is very cheap "insurance" for mankind!
Since there is no Australian Spaceguard Survey at
general media inquiries in Australia should be
directed to research organisations such as
Observatory (phone Sydney 02 93724800) or Mt Stromlo(Canberra
02 6249 0230)
or the links at ASTRONOMICAL
SOCIETY OF AUSTRALIA. We will, however, try and answer email enquiries
covered on this web site.
Update May 2013: Astronomer and author Duncan Steel now has a website.
Note that webmaster Michael Paine is not the "head of Spaceguard Australia", as indicated in the November/December 1999 issue of The Planetary Report. He is New South Wales Coordinator of The Planetary Society Australian Volunteers.
The Planetary Society
Co-ordinators or the Planetary Society
Started in 1997 (when web page names were limited to 8 letters). For last update see News