Meteorite fall statistics - AbsoluteAstronomy.com

Meteorite fall statistics are frequently used by planetary scientists to approximate the true flux of meteorites on the Earth. Meteorite falls
Meteorite falls
Meteorite falls, also called observed falls, are those meteorites that were witnessed by people or automated devices as they moved through the atmosphere or hit the Earth, and were subsequently collected. All other meteorites are called "finds"...

are those meteorites that are collected after being witnessed to fall, whereas meteorite finds are discovered at a later time. Although there are 30x more finds than falls, their raw distribution of types does not accurately reflect what falls to Earth. The reasons for this include:

Some meteorite types are easier to find than others
Some meteorite types are degraded by weathering
Weathering
Weathering is the breaking down of rocks, soils and minerals as well as artificial materials through contact with the Earth's atmosphere, biota and waters...

more quickly than others
Some meteorites, especially iron meteorite
Iron meteorite
Iron meteorites are meteorites that consist overwhelmingly of nickel-iron alloys. The metal taken from these meteorites is known as meteoric iron and was one of the earliest sources of usable iron available to humans.-Occurrence:...

s, may have been collected by people in the past who recognized them as being unusual and/or useful, thereby removing them from the scientific record
Many meteorites fall as showers of many stones, but when they are collected long after the event it may be difficult to tell which ones were part of the same fall
Many meteorites are found by people who sell meteorites... valuable, rare types become known to science quickly, while those of low value may never be described.

There have been many attempts to correct statistical analyses of meteorite finds for some of these effects, especially to estimate the frequency with which rare meteorite types fall. For example there are over 100 known lunar meteorite

Lunar meteorite

A Lunar meteorite is a meteorite that is known to have originated on the Moon.-Discovery:In January 1982, John Schutt, leading an expedition in Antarctica for the ANSMET program, found a meteorite that he recognized to be unusual...

finds, but none has ever been observed to fall. However, for abundant types, meteorite fall statistics are generally preferred.

These statistics are current through June 27, 2011.

Statistics by material

For most meteorite falls, even those that occurred long ago or for which material has never received complete scientific characterization, it is known whether the object was a stone, stony iron, or iron meteorite. Here are the numbers and percentages of each type, based on literature data.

Material	Number	%
Iron meteorites	49	4.5%
Stony-iron meteorites	11	1.0%
Stony meteorites	1036	94.5%
Total	1096	100.0%

Statistics by major category

The traditional way of subdividing meteorites (see Meteorites classification

Meteorites classification

The ultimate goal of meteorite classification is to group all meteorite specimens that share a common origin on a single, identifiable parent body. This could be a planet, asteroid, Moon, or other current Solar System object, or one that existed some time in the past...

) is into irons, stony-irons, and two major groups of stony meteorites, chondrite

Chondrite

Chondrites are stony meteorites that have not been modified due to melting or differentiation of the parent body. They formed when various types of dust and small grains that were present in the early solar system accreted to form primitive asteroids...

s and achondrite

Achondrite

An achondrite is a stony meteorite that does not contain chondrules. It consists of material similar to terrestrial basalts or plutonic rocks and has been differentiated and reprocessed to a lesser or greater degree due to melting and recrystallization on or within meteorite parent bodies...

s. For some of the less-studied stony meteorite falls, it is not known whether the object is chondritic; thus the number of meteorites that can be so grouped is 4% lower than shown above. These numbers are shown in the next table. One could make a slight correction for the undercounting of stony meteorites (e.g., the percentage of irons would decrease by a 0.2%), but this was not done.

Category	Number	%
Irons	49	4.6%
Stony irons	11	1.0%
Achondrites	85	8.1%
Chondrites	910	86.3%
Total	1055	100.0%

Statistics by meteorite group

Probably the most useful statistical breakdown of meteorite falls is by group, which is the fundamental way that meteorites are classified. About 5% of the meteorites in the table just above have not been sufficiently classified to allow them to be put into such groups. Again, a small adjustment could be made to the percentages to correct for this effect, but it does not greatly change the results. Note that a number of meteorite groups are only represented by a small number of falls; the percentages of falls belonging to these groups have a large uncertainty.

Group	N	%
Iron meteorites
IAB complex	10	1.0%
IC	0	0.0%
IIAB	6	0.6%
IIC	0	0.0%
IID	3	0.3%
IIE	2	0.2%
IIF	1	0.1%
IIG	0	0.0%
IIIAB	11	1.1%
IIIE	0	0.0%
IIIF	0	0.0%
IVA	4	0.4%
IVB	0	0.0%
Ungrouped	4	0.4%
Stony Iron meteorites
Mesosiderite	7	0.7%
Pallasite	4	0.4%

Group	N	%
Achondrites
Acapulcoite	1	0.1%
Lodranite	1	0.1%
Angrite	1	0.1%
Aubrite	9	0.9%
Diogenite	11	1.2%
Eucrite	34	3.5%
Howardite	16	1.6%
Brachinite	0	0.0%
Ureilite	6	0.6%
Winonaite	1	0.1%
Ungrouped	1	0.1%
Lunar	0	0.0%
Martian	4	0.4%

EWLINE

Group	N	%	Class total
Chondrites
CB	1	0.1%	Carbonaceous: 4.3%
CH	0	0.0%
CI	5	0.5%
CK	2	0.2%
CM	15	1.5%
CO	6	0.6%
CR	2	0.2%
CV	7	0.7%
C ungrouped	5	0.5%
EH	8	0.8%	Enstatite: 1.6%
EL	8	0.8%	Enstatite: 1.6%
H	338	34.0%	Ordinary: 80.1%
H/L	1	0.1%
L	369	37.1%
L/LL	9	0.9%
LL	81	8.1%
R	1	0.1%	Other: 0.2%
K	1	0.1%	Other: 0.2%

Grand Total: 996 meteorites

Statistics by Country

Country	N
Afghanistan	1
Algeria	7
Angola	3
Argentina	24
Armenia	2
Australia	16
Austria	4
Azerbaijan	2
Bangladesh	8
Belarus	3
Belgium	3
Bosnia and Herzegovina	1
Brazil	22
Bulgaria	5
Burkina Faso	8
Burma	3
Cambodia	2
Cameroon	3
Canada	16
Central African Republic	1
Chad	1
Chile	1
China	57
Colombia	1
Congo - Dem. Rep.	5
Costa Rica	1
Croatia	4

Country	N
Czech Republic	15
Denmark	4
Ecuador	1
Egypt	2
Estonia	3
Ethiopia	5
Finland	5
France	63
Germany	32
Ghana	1
Greece	1
Hungary	6
India	127
Indonesia	16
Iran	2
Iraq	2
Ireland	6
Italy	31
Japan	42
Jordan	1
Kazakhstan	6
Kenya	3
Latvia	4
Lebanon	1
Lesotho	1
Libya	1
Lithuania	4
Madagascar	1

Country	N
Malawi	5
Mali	2
Mauritania	3
Mauritius	1
Mexico	19
Mongolia	4
Morocco	5
Namibia	2
Netherlands	4
New Caledonia	1
New Zealand	1
Niger	9
Nigeria	14
Norway	9
Pakistan	15
Papua New Guinea	2
Paraguay	1
Peru	1
Philippines	4
Poland	10
Portugal	6
Romania	7
Russia	47
Rwanda	1
Saudi Arabia	4
Serbia	4
Slovakia	3

Country	N
Slovenia	2
Somalia	2
South Africa	21
South Korea	3
South Sudan	3
Spain	23
Sri Lanka	1
Sudan	7
Swaziland	1
Sweden	9
Switzerland	4
Syria	1
Tanzania	8
Thailand	3
Tunisia	5
Turkey	12
Turkmenistan	2
Uganda	5
Ukraine	32
United Kingdom	18
United States	145
Uzbekistan	2
Venezuela	2
Vietnam	3
Western Sahara	3
Yemen	2
Zambia	1
Zimbabwe	2

Grand Total: 1096 meteorites

Statistics by Continent and Time

Epoch	Europe	Asia	North America	Africa	South America	Oceania	Total
Pre-1400	1	1					2
15th century	4						4
16th century	2						2
17th century	9	3					12
18th century	25	3					28
1800–1820	31	7	3	1			42
1821–1840	26	11	9	1	1		48
1841–1860	42	15	12	1			70
1861–1880	47	36	14	6	4	1	108
1881–1900	36	27	20	7		2	92
1901–1920	26	55	21	10	4	2	118
1921–1940	38	55	32	17	14	5	161
1941–1960	27	27	18	31	12	3	118
1961–1980	19	42	22	29	8	3	123
1981–2000	12	49	19	24	4	2	110
2001-	10	14	11	15	6	2	58
Total	355	345	181	142	53	20	1096

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