Lake Lappajärvi

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Lappajärvi is a lake in Finland, in the municipalities of Lappajärvi, Alajärvi and Vimpeli.[1] It is formed in a 23 km (14 mi) wide, partly eroded meteorite impact crater.[2] The lake is part of Ähtävänjoki (Swedish: Esse å) basin together with Lake Evijärvi that is located downstream (north) of it.

Lake Lappajärvi
Lappajärvi is the largest lake near the lower right corner.
Lake Lappajärvi is located in Finland
Lake Lappajärvi
Lake Lappajärvi
LocationLappajärvi, Finland
Coordinates63°12′N 023°42′E / 63.200°N 23.700°E / 63.200; 23.700
TypeImpact crater lake
Primary outflowsÄhtävänjoki
Basin countriesFinland
Surface area145.49 km2 (56.17 sq mi)[1]
Max. depth36 m (118 ft)
Surface elevation69.5 m (228 ft)[1]
Islands56 (Kärnä)
References[1]

The Lappajärvi impact structure is estimated to be 77.85 ± 0.78 million years old (Campanian age of the Late Cretaceous time period).[3] Experts working on Finland's Onkalo spent nuclear fuel repository project have studied Lake Lappajärvi to help them project how Finnish landscapes might look one million years in the future and beyond.[4]

An island in the middle of the lake, Kärnänsaari (Kärnä Island), gives the name to the black impact melt rock (impactite) found there, locally called Kärnäiitti.[5]

Nearby towns include Lappajärvi and Vimpeli and the nearest major city is Seinäjoki.

In September 2023, UNESCO accepted the Lappajärvi area's "Impact Crater Lake" Geopark application as one of the possible recipients of Geopark status for 2024.[6]

Impact crater

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Lappajärvi is the largest or second-largest meteorite crater in Finland, and it is also the youngest and the first meteorite crater discovered in Finland.[7] The diameter of the crater, which was formed in Lappajärvi, was approximately 22-23 kilometers, with a depth of 750 meters. It was caused by an asteroid estimated to be about 1.6 kilometers in size, around 77.85 ± 0.78 million years ago.[8] According to current estimates, it is believed to have been formed during the intensified meteorite and asteroid bombardment in the Late Cretaceous epoch. The asteroid is thought to have been a common H-type chondrite.[9]

The cooling of the bedrock is estimated to have taken place over a period ranging from one hundred thousand to one million years.[10]

Below the Kärnänsaari island in the middle of the lake, there is impactite known as kärnäite. Kärnänsaari has been suspected to be the central uplift of the impact crater, although it could also be a mere erosional remnant shaped by glacial activity.[11] The southeastern edge of the crater is surrounded by an elevated rim, now known as Lakeaharju and Pyhävuori.[12] Typical rocks found in meteorite craters, such as breccia, as well as impact diamonds and minerals like suevite and coesite, have been discovered in Lappajärvi.[13] The shattered bedrock resulting from the meteorite impact has created favorable groundwater areas in Lappajärvi.[14]

Iso-Räyrinki Lake in Alajärvi has been suggested as a secondary crater of the Lappajärvi meteorite, thought to have been formed by a moon orbiting the Lappajärvi meteorite.[15]

Discovery

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The research history of Lappajärvi is considered to have started in 1858 when Henrik Holmberg mentioned in his book "Materialier till Finlands geognosi" a volcanic rock found in Lappajärvi. In 1916, geologist Eero Mäkinen analyzed the rock and identified it as dacite, a type of lava rock.[16][17] After his studies on Lake Yanisyarvi in Karelia in 1920, geologist Pentti Eskola became convinced that Lappajärvi was also a volcanic lake.[18] In the summer of 1926, Eskola visited Lappajärvi and confirmed that the kärnäite rock was volcanic in origin.[19] Lappajärvi was long believed to be the remnant of an ancient volcano, and as late as 1964, Professor Ahti Simonen wrote about the lake's ancient volcanic activity.[20]

In the spring of 1967, after studying the Nördlinger Ries crater in Germany, Professor Thure Georg Sahama began to suspect that Lappajärvi was also a meteorite crater and suggested that Martti Lehtinen investigate it.[21] In 1967, Swedish researcher Nils-Bertil Svensson observed that quartz in kärnäite was fragmented in the same way as in other craters on Earth. Svensson's findings were published in Nature in February 1968.[22] In 1967, Martti Lehtinen started his investigations of the crater and discovered suevite in the Hietakangas gravel pits in July 1967. In the summer of 1968, he found coesite in Lappajärvi. His licentiate thesis on the research was completed the following year.[23] In 1976, Lehtinen published an English-language doctoral dissertation on the meteorite theory, which included evidence of quartz transformations in certain rock samples that could not have resulted from volcanic activity. The dissertation is considered the final confirmation of the meteorite theory.[24] Gravity measurements conducted in the same year also supported the meteorite theory, as a gravitational anomaly was detected within a 17-kilometer diameter area.[25]

In 1980, German researchers Elmar Jessberger and Uwe Reimold used the argon–argon dating method to determine the age of the crater to be approximately 77.3 million years.[26]

From 1988 to 1990, the Geological Survey of Finland conducted drilling studies, with the first one reaching a depth of 217.75 meters in Härkäniemi, where kärnäite was found to extend from the surface to the depth of 145 m, followed by a suevite layer and a breccia layer.[27][28][29] The second drilling reached a depth of 165.75 meters in Pokela, Vimpeli.[30] The fourth drilling reached a depth of 275 meters in the intermediate island between Kärnänsaari and Matalasaari, but no kärnäite was found.[31]

In 1992, paleomagnetic methods estimated the age of the crater to be around 195 million years.[32] In 1997, small impact diamonds were discovered in suevite boulders from Lappajärvi.[33] In 2001, uranium-lead dating by the Geological Survey of Finland estimated the age of the crater to be around 73.3 million years, with a margin of error of five million years, confirming that Lappajärvi was formed during the Late Cretaceous epoch.[34] In a study published in 2013, argon–argon dating yielded an age of 76.2 million years for the crater. The study also revealed that some minerals were approximately one million years younger, suggesting that the cooling of the crater took place over a period ranging from one hundred thousand to one million years.[35] In the summer of 2018, researchers proposed an age of 77.8 million years based on uranium-lead dating.[36] After peer review, the age was revised to approximately 77.85 (± 0.78) million years.[37]

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See also

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References

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  1. ^ a b c d "Finnish lakes larger than 40 square kilometers". Finnish Environment Institute. Archived from the original on 2011-07-25.
  2. ^ "Lappajärvi". Earth Impact Database. Planetary and Space Science Centre University of New Brunswick Fredericton. Retrieved 2009-05-24.
  3. ^ Kenny, G.G.; Schmieder, M.; Whitehouse, M.J.; Nemchin, A.A.; Morales, L.F.G.; Buchner, E.; Bellucci, J.J.; Snape, J.F. (2019). "A new U-Pb age for shock-recrystallised zircon from the Lappajärvi impact crater, Finland, and implications for the accurate dating of impact events". Geochimica et Cosmochimica Acta. 245: 479–494. Bibcode:2019GeCoA.245..479K. doi:10.1016/j.gca.2018.11.021. S2CID 133730451.
  4. ^ Ialenti, Vincent (5 July 2016). "Craters & Mudrock: Tools for Imagining Distant Future Finlands". The Long Now Foundation.
  5. ^ "Welcome to nginx". Archived from the original on 2012-07-31. Retrieved 2012-04-09.
  6. ^ "UNESCO Global Geoparks Council proposes 16 new geoparks for endorsement". unesco.org. 2023-09-06. Archived from the original on 2023-09-08. Retrieved 2023-09-10.
  7. ^ "Suomen törmäysktaatterit". somerikko.net. Moilanen, Jarmo. Retrieved 2023-06-02.
  8. ^ Kenny, Gavin G.; Schmieder, Martin; Whitehouse, Martin J.; Nemchin, Alexander A.; Morales, Luiz F.G.; Buchner, Elmar; Bellucci, Jeremy J.; Snape, Joshua F. (2019-01-15). "A new U-Pb age for shock-recrystallised zircon from the Lappajärvi impact crater, Finland, and implications for the accurate dating of impact events". Geochimica et Cosmochimica Acta. 245: 479–494. Bibcode:2019GeCoA.245..479K. doi:10.1016/j.gca.2018.11.021. S2CID 133730451. Retrieved 2023-06-02.
  9. ^ Tagle, R.; Öhman, T.; Schmitt, R. T.; Erzinger, J.; Claeys, P. H. (2007). "Traces of an H chondrite in the impact-melt rocks from the Lappajärvi impact structure, Finland". Meteoritics & Planetary Science. 42 (10): 1841. Bibcode:2007M&PS...42.1841T. doi:10.1111/j.1945-5100.2007.tb00542.x. S2CID 55442963.
  10. ^ Gary, Stuart (2023-02-28). "Impact craters may be cradles of life". ABC Science. Retrieved 2023-06-02.
  11. ^ Öhman, Teemu (2018). "Lappajärvi impact structure, Finland - Triple anniversary in 2018 and prospects for research and outreach" (PDF). 49th Lunar and Planetary Science Conference 2018. Retrieved 2023-06-02.
  12. ^ Öhman, Teemu. "Geologia". kraatteri.net. Archived from the original on 2018-12-31. Retrieved 2018-12-31.
  13. ^ Lehtinen, Martti (1998). "12 Meteoriittitörmäys kraaterit − maan ja taivaan kohtauspaikka" (PDF). geologinenseura.fi. Suomen geologinen seura. Retrieved 2023-06-02.
  14. ^ "Hyvä porakaivo käy taajamankin vesilähteeksi Lappajärvi pumppaa pian juomavetensä meteoriittikraatterista". hs.fi. Helsingin Sanomat. 1994-02-26. Archived from the original on 2017-03-11. Retrieved 2017-03-11.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
  15. ^ Koivisto, Marjatta (1997). "Sueviittilohkarelöydyt Pohjanmaalla" (PDF). gtk.fi. Geologian tutkimuskeskus. Retrieved 2023-06-02.
  16. ^ Öhman, Teemu (2017). Kraatterijärven Georeitti (PDF). p. 20.
  17. ^ Eskola, Pentti (1921). Volcanic necks in Lake Jänisjärvi in eastern Finland (PDF). p. 11.
  18. ^ Eskola, Pentti (1926-09-25). "Tulivuorenjäännöksiä Suomessa". Uusi Suomi. Retrieved 2023-06-02.
  19. ^ "Tulivuoren jäännös Lappajärven Kärnäsaaressa". Vaasa. 1926-09-18. Retrieved 2023-06-02.
  20. ^ Suomen geologia. 1964. p. 115.
  21. ^ "Kuuma kivi taivaalta" (PDF). Helsingin Sanomat. 2000-05-21. Retrieved 2023-06-02.
  22. ^ Svensson, Nils-Bertil (1968-02-01). "Lake Lappajärvi, Central Finland: a Possible Meteorite Impact Structure". Nature. 217 (5127): 438. Bibcode:1968Natur.217Q.438S. doi:10.1038/217438a0. S2CID 4202217.
  23. ^ Lehtinen, Martti (1998). 12 Meteoriittitörmäys kraaterit − maan ja taivaan kohtauspaikka (PDF). p. 333.
  24. ^ Lehtinen, Martti (1976). Lake Lappajärvi, a meteorite impact site in western Finland (PDF). Geologinen tutkimuslaitos. ISBN 951-690-041-0.
  25. ^ Elo, Seppo (1976). "A study of the Gravity Anomaly associated with Lake Lappajarvi, Finland" (PDF). Geological Survey of Finland. Retrieved 2023-06-02.
  26. ^ Dieminger, Walter (Ed.); Untiedt, J. (Ed.) (1980). "A Late Cretaceous 40Ar—39Ar Age for the Lappajärvi Impact Crater, Finland". Sub Göttingen. Journal of Geophysics - Zeitschrift für Geophysik. doi:10.23689/fidgeo-3159. Retrieved 2023-06-02.
  27. ^ Pesonen, Lauri J.; Niemisara, H. (1990). Fennoscandian impact structures : symposium, May 29-31 1990, Espoo and Lappajärvi, Finland : program and abstracts (PDF). Geological Survey of Finland. pp. 18–20. ISBN 951-690-377-0.
  28. ^ Palaeomagnetic, rock magnetic and other geophysical results from the Lake Lappajärvi impact crater, central-western Finland (PDF). p. 36.
  29. ^ Öhman, Teemu (2017). Kraatterijärven Georeitti (PDF). p. 27.
  30. ^ Uutela, Anneli (1990). "Proterozoic microfossils from the sedimentary rocks of the Lappajärvi impact crater". Bulletin of the Geological Society of Finland. 62 (2): 116–117. doi:10.17741/bgsf/62.2.002.
  31. ^ Öhman, Teemu (2017). Kraatterijärven Georeitti (PDF). p. 50.
  32. ^ Pesonen, L.J.; Marcos, N.; Pipping, F. (1992). "Palaeomagnetism of the Lappajärvi impact structure, western Finland". Tectonophysics. 216 (1–2): 123–142. Bibcode:1992Tectp.216..123P. doi:10.1016/0040-1951(92)90160-8. Retrieved 2023-06-02.
  33. ^ Vuoden 1997 tulosraportointi (PDF). Geologian tutkimuskeskus. 1998. p. 10.
  34. ^ Mänttäri, Irmeli; Koivisto, Marjatta (2001). "Ion microprobe uranium-lead dating of zircons from the Lappajärvi impact crater, western Finland". Meteoritics & Planetary Science. 36 (8): 1087–1095. Bibcode:2001M&PS...36.1087M. doi:10.1111/j.1945-5100.2001.tb01946.x. S2CID 128541982.
  35. ^ Schmieder, Martin (2013). "The Lappajärvi impact structure (Finland): Age, duration of crater cooling, and implications for early life". Geochimica et Cosmochimica Acta. 112: 321–339. Bibcode:2013GeCoA.112..321S. doi:10.1016/j.gca.2013.02.015. Retrieved 2023-06-02.
  36. ^ "Accurate and Precise Dating of Impact Events by U-Pb Analysis of Shocked Zircon — A Case Study from the Lappajärvi Impact Structure" (PDF). usra.edu. 81st Annual Meeting of The Meteoritical Society 2018. 2018.
  37. ^ Kenny, Gavin (2019). "A new U-Pb age for shock-recrystallised zircon from the Lappajärvi impact crater, Finland, and implications for the accurate dating of impact events". Geochimica et Cosmochimica Acta. 245: 479–494. Bibcode:2019GeCoA.245..479K. doi:10.1016/j.gca.2018.11.021. S2CID 133730451. Retrieved 2023-06-02.
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