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Kurile Lake

May 01, 2024

Kurile Lake (Russian: Кури́льское о́зеро, romanizedKuríl'skoye Ózero) is a caldera and crater lake in Kamchatka, Russia. It is also known as Kurilskoye Lake or Kuril Lake.[3] It is part of the Eastern Volcanic Zone of Kamchatka which, together with the Sredinny Range, forms one of the volcanic belts of Kamchatka. These volcanoes form from the subduction of the Pacific Plate beneath the Okhotsk Plate and the Asian Plate.

Kurile Lake
Kurilskoe Lake, Kuril Lake
Kurile lake and the Serdce Alaida island
LocationEastern Range, Kamchatka Krai, Russia
Coordinates51°27′N 157°07′E / 51.45°N 157.12°E / 51.45; 157.12
Primary outflowsOzernaya
Catchment area392 km2 (151 sq mi)
Max. length14 km (8.7 mi)
Max. width8 km (5.0 mi)
Surface area76 km2 (29 sq mi)
Average depth195 m (640 ft)
Max. depth316 m (1,037 ft)
Water volume14.82 km3 (3.56 cu mi)
Surface elevation81 m (266 ft)
FrozenMarch-April, rare in cold winter[1][2]
Islands5
Settlementsnone

Before the Kurile Lake caldera formed, the Pauzhetka caldera was active during the Pleistocene, and was the origin of the 443,000 ± 8,000 years old Golygin ignimbrite. The Kurile Lake caldera erupted 41,500 years ago, and another small eruption occurred between 9,000 and 10,000 years ago; then 6460–6414 BC a very large eruption took place, forming the present-day caldera and the Kurile Lake ignimbrite and deposited ash as far as 1,700 kilometres (1,100 mi) away. This eruption has a volume of 140–170 cubic kilometres (34–41 cu mi), making it a VEI 7-class eruption and one of the largest during the Holocene. Subsequently, the volcanoes Diky Greben and Ilinsky grew around the caldera; the last eruption from Ilinsky was in 1911. The caldera is filled by a lake with an area of 76 square kilometres (29 sq mi), and a maximum depth of 316 metres (1,037 ft). The largest sockeye salmon stocks in Asia live in the lake.

Geography and structure edit

Kurile Lake is found in the southern part of the Kamchatka Peninsula,[3] in a rugged volcanic landscape.[4] The region was not always part of the Kamchatka Peninsula; during the middle Pleistocene it was an island.[5] Georg Wilhelm Steller visited the area in 1740–1743.[6]

Kurile Lake is formed by two basins, which are separated by a 150-metre-wide (490 ft) subaqueous ridge.[7] The centre part of the lake is formed by a flat basin; canyons cut into the slopes of the western side of the lake, where the Ozernaya and Kumnynk rivers open into the lake. The Etamynk and Khakytsin rivers conversely have formed an alluvial fan.[8] The maximum depth of the lake is 316 metres (1,037 ft), with an average depth of 195 metres (640 ft)[9] or 180 metres (590 ft).[10]

The southern basin is deeper than the northern basin (300 metres (980 ft) against the 200 metres (660 ft) of the northern basin) and is a Holocene caldera. The nature of the northern basin is less clear; Bondarenko in 1991 supposed that it was an older separate caldera which he named Ilinsky, but Braitseva et al. 1997 and Ponomareva et al. 2004 consider both to be the Kurile Lake caldera.[7] This caldera has an area of about 45 square kilometres (17 sq mi),[11] or 14 by 8 kilometres (8.7 mi × 5.0 mi).[3] In that case, the ridge that separates the two basins may be a deposit left when earthquakes preceding the caldera forming eruption caused Ilinsky volcano to collapse.[12] Caldera collapse was controlled by faults that parallel the lake shores.[8] Some islands in the lake formed by slumping and others are volcanic cones; the "Heart of Alaid" (Serdtze Alaida) is a lava dome 300 metres (980 ft) high.[13] A number of lava domes and pyroclastic cones are found in the lake.[13] The Severnaya bay may be an explosion crater.[8] Lava flows from Ilinsky extend into the lake.[14]

Ring faults, partially buried by alluvial fans and landslides, limit the caldera in the lake.[12] A large landslide forms Glinyany Peninsula in the southeastern shore of the lake.[15] Post-caldera activity has formed some islands in the lake and the Diky Greben volcano.[7] Both Glinyany Peninsula and the post-caldera lava domes (Chayachii, Serdtze Alaida, Tugumynk) were affected by slumping. Approximately 120–160 metres (390–520 ft) of sediment and volcanites bury the deposits left in the caldera by the caldera-forming eruption.[12]

The rim of the Kurile Lake caldera is best expressed at Ilinsky volcano and south and northwest thereof.[7] Close to the lake, two Pleistocene caldera rims can be found and there may be more. The volcanoes Diky Greben, Ilinsky, Kambalny, Kosheleva and Zheltovsky surround Kurile Lake.[16] Diky Greben formed after the eruption of Kurile Lake.[13]

Gravimetry indicates that there is still a magma chamber beneath Kurile Lake, at a depth of about 4 kilometres (2.5 mi). This magma chamber is about 10 kilometres (6.2 mi) wide.[11]

  •  
    Serdce Alaida
  •  
    Ilinsky volcano
  •  
    Diky Greben

Geology edit

The Pacific Plate subducts at a pace of about 8 centimetres per year (3.1 in/year) beneath the Okhotsk Plate and Asian Plate. This subduction is responsible for the Kamchatka-Kuril Trench as well as for volcanism in Kamchatka. The Wadati-Benioff Zone lies c. 100 kilometres (62 mi) beneath Kurile Lake.[5]

Kurile Lake is included in the Eastern Volcanic Zone of Kamchatka, 200 kilometres (120 mi) away from the trench.[5] It is one of the two or three volcanic zones of Kamchatka, the other ones being the Central Depression and the Sredinny Range. Only the first two have had historical activity.[17] The neighbouring volcano Ilinsky was active in 1911 and Zheltovsky was active in 1923.[16] Hydrothermal activity may still be ongoing in the lake.[11]

The oldest volcanoes of the Pauzhetka structure may be of Oligocene-Miocene age; during that time the area was in the sea. The sedimentary Paratunka Formation and the Kurilsky complex were deposited during that time; they are exposed east and southwest of Kurile Lake. About 600–650 cubic kilometres (140–160 cu mi) of basaltic rocks were erupted during the Miocene-Pliocene. The Pauzhetka depression formed during the Pliocene or Pleistocene and was most likely accompanied by the eruption of the 300–450 cubic kilometres (72–108 cu mi) Golygino ignimbrite.[18] The eruption of this ignimbrite occurred 443,000 ± 8000 years ago.[19] Afterwards, a resurgent dome named the Kambalny ridge formed in the Pauzhetka structure, as well as a proto-Ilinsky volcano.[18]

 
Position of Kurile Lake in southern Kamchatka

Local edit

The basement in the area is formed by Miocene-Pliocene sedimentary rocks and volcanic rocks. During the Pleistocene calderas, lava plateaus, somma volcanoes like pre-Ilinsky stratovolcanoes formed in the area.[16]

One caldera that formed in the area is the Pauzhetka Caldera, of middle Pleistocene age. As of 2004 the possibility that a later caldera existed in the Pauzhetka caldera was considered.[16] Kurile Lake is located in the eastern part of this Pauzhetka caldera, which has dimensions of 55 by 35 kilometres (34 mi × 22 mi). In the centre of the Pauzhetka caldera lies a 650 metres (2,130 ft) wide depression that covers an area of 25 by 20 kilometres (16 mi × 12 mi).[20]

Regional explosive activity edit

Southern Kamchatka has been the site of explosive eruptions during history;[5] the Ksudach volcano 50 kilometres (31 mi) north of Kurile Lake had five caldera forming eruptions during the Pleistocene and Holocene. The time period between 6400 and 6600 BC was especially active, with caldera forming eruptions including the one that formed Kurile Lake.[16]

Kurile Lake is not the only volcano in Kamchatka with major explosive eruptions during the Holocene that exceeded VEI 5; three other such eruptions occurred at Ksudach volcano and one at Karymsky volcano.[4]

Composition edit

Volcanic rocks of Kurile Lake range from basaltic andesite to rhyolite. They contain small to medium amounts of potassium.[21]

Rhyolite makes up the bulk of the eruption products of Kurile Lake. Minerals contained include plagioclase, orthopyroxene, clinopyroxene, magnetite and hornblende in decreasing order of importance.[22] The ash becomes white away from the vent, while near-vent deposits are often yellow.[23]

Environment edit

 
The environment at Kurile Lake

Vegetation around the caldera consists mostly of bush and forest.[4] At the edge of the lake there is no macrovegetation.[24]

Vegetation in Kamchatka overall consists mostly of alder bushes, pine and stone birch. Along valleys cottonwood and willow can be found as well.[25] In 1998, Kurile Lake had the highest density of brown bears of Kamchatka, and possibly of the entirety of Russia.[26] The lake is a nature reserve.[27]

Lake edit

 
The Ozernaya river drains the lake

The Kurile Lake caldera is filled by the Kurile crater lake, covering a surface area of 76 square kilometres (29 sq mi)[4] to 77.1 square kilometres (29.8 sq mi).[10] A lake existed already before the Kurile Lake caldera forming eruption.[16] The present-day lake has a volume of 14.6 cubic kilometres (3.5 cu mi) and a catchment of 392 square kilometres (151 sq mi),[28] it is surrounded by steep shores.[29] Water remains in the lake for about eighteen years.[10]

In June 2011, a water temperature of 1.9 °C (35.4 °F) was measured.[30] The lake waters are oligotrophic.[31] The Ozernaya River drains the lake to the Sea of Okhotsk.[4] Reports in 1923 indicate that the lake was formerly up to 50 metres (160 ft) higher than today, possibly because lava flows dammed its outlet. At least two other shorelines are found 15–20 metres (49–66 ft) above the current water level.[32] The caldera lake may have suffered a catastrophic outburst flood in the past.[33]

Diatoms form most of the phytoplankton, with Cyclotella, Melosira, Stephanodiskus and Synedra.[28] Dominant copepod species in summer 2011 include Cyclops scutifer and the dominant cladocerans Daphnia longiremis.[34] Other species as well as rotifers are also present, they constitute sources of food for sockeye salmons.[35] A number of annelid species are also found, many of the species that are found in neighbouring waters cannot be found in the lake.[24] The chironomid midge Chaetocladius tatianae is endemic to the Kurile Lake watershed.[36]

Sockeye salmon fisheries are present at the lake.[31] The lake is a major nursery for this species of fish.[28] The number of fish in the lake ranges from 260,000 to over 6 million.[35] The stocks found at Kurile Lake are the largest in Asia.[27] Fishing of the salmon of the Ozernaya River has been regulated to allow their reproduction and to conserve bear populations.[37] The lake is part of the Kamchatka National Reserve.[38]

Eruptive history edit

 
Outcrop of pumice at Kuthiny Baty, 4 km (2.5 mi) from the lake

The idea that pumice around Kurile Lake was formed by an eruption in the area of the lake was first suggested by Boris Piip in 1947. Later research identified these pumice as the product of the caldera-forming eruption, although some skepticism remains, which considers these pumice as the product of fissure eruptions.[16] An earlier Pleistocene caldera-forming eruption took place 41,500 years ago,[3] ash deposits from this eruption are found as far away as Magadan, 1,000 kilometres (620 mi) away from Kurile Lake,[39] and possibly Lake El′gygytgyn.[40]

The Kurile Lake caldera forming eruption, also known as "KO",[16] occurred in 6460–6414 BC.[41] It is the largest known Holocene eruption in Kamchatka. Tephra from this eruption has been found in southern Kamchatka and also Magadan in Asia.[16] The total volume of the Kurile Lake caldera forming eruption is about 140–170 cubic kilometres (34–41 cu mi), corresponding to a volcanic explosivity index of 7 and comparable to the 1815 eruption of Tambora.[42][43] Other volcanoes with such large eruptions during the Holocene include Baitoushan, Crater Lake and Kikai.[44]

The caldera forming eruption commenced with a phreatoplinian eruption that generated deposits of fine ash. Several yellowish rhyolitic ignimbrites were erupted, reaching a thickness of over 50 metres (160 ft). These ignimbrites filled gullies around the lake and also reach thicknesses of several tens of centimetres in the Vychenkiya River and Unkanovich River valleys.[45] This eruption phase occurred through the lake.[41] All these deposits were formed by the same event. Subsequently, a short eruption of lapilli and pumice consisting of dacite and rhyolite occurred, most of it falling towards the northwest; their thickness reaches 20 centimetres (7.9 in) north of the lake. Some basaltic scoria was also deposited during this phase.[46] At this point, the vent had emerged above the water level and was generating an eruption column that deposited ash over southern Kamchatka. Eventually, the vent widened and caused the eruption column to collapse. At this point, pyroclastic flows formed and deposited the Kurile Lake ignimbrite.[41] Reaching a thickness of 150 metres (490 ft) close to the lake, it filled valleys, overran plateaus and ridges and reached both the Pacific Ocean and the Sea of Okhotsk.[46] The ignimbrite was highly mobile, overrunning high topographic obstacles and flowing along valleys in a complex flow pattern.[47] The ignimbrite covered a total surface area of 1,800–1,900 square kilometres (690–730 sq mi).[11] This ignimbrite consists of rocks ranging from basaltic andesite to rhyolite with colours ranging from white to dark. Unusually for such mixed-composition ignimbrites, the rhyolites overlie the more mafic deposits.[46] These mafic ignimbrites are not found around the entire lake, indicating that the magma chamber was asymmetric or its contents were erupted in an asymmetric fashion.[41] The ignimbrite contains remnants of vegetation, accretionary structures formed when the ignimbrite interacted with water, breccia probably formed when conditions at the vent changed,[48] involving the formation of a ring vent.[41] Fumaroles formed as the ignimbrite overran rivers.[49] Some post-eruption alteration of the ignimbrite deposits also took place.[15] In the lake itself, the ignimbrite is about 400 metres (1,300 ft) thick.[12] The pumice deposits have been affected by erosion and possibly by fumarolic activity, forming structures resembling overturned boats that were named "Khutk's boats" by native settlers.[16]

Ash from the eruption spread west-northwest of Kurile Lake,[50] covering a total surface of over 2,000,000 square kilometres (770,000 sq mi);[51] it can be found at large distances from the caldera; 1-millimetre-thick (0.04 in) layers have been found in the upper reaches of the Indigirka River, 1,700 kilometres (1,100 mi) away from Kurile Lake,[15] and in the Oymyakon Plateau.[52] Thicknesses still reach several centimetres in Magadan. In the northern Kuriles, the thickness reaches several tens of centimetres. This ash is found in drilling cores in the Sea of Okhotsk.[15] Coignimbrite ash formed when the ignimbrites reached the sea.[49] In terms of composition, it ranges from rhyolite to dacite and is poor in potassium.[15] The ash is an important tephrochronological marker[53] and has been found as far away as Greenland.[51]

Before the eruption, a 1,500 year lull in volcanic activity allowed the deposition of soils in the area.[16] A minor eruption occurred at Kurile Lake between 9,000 and 10,000 years ago, resulting in the deposition of tephra north of the caldera. This tephra is formed by gray fine ash and lapilli consisting of dacitic pumice. Other volcanoes also left several tephra deposits.[54] Soils formed after the caldera forming eruptions also contain a number of ash layers by volcanoes both near and far.[15] Volcanic activity occurred at Ilinsky volcano after the caldera forming eruption until 1901, and the similarity between Ilinsky and Kurile Lake rocks indicate that the activities of the two centres are related.[49] Diky Greben formed less than 100 years after the formation of the caldera and was last active 1600 BP. A number of other lava domes and pyroclastic cones formed inside the caldera shortly after the caldera-forming eruption.[13]

Effects and threats edit

The caldera-forming eruption of Kurile Lake had a devastating effect on the surrounding area and had a noticeable effect far from the lake. A significant amount of gas was released during the eruption, including 3.7–4.2 billion metric tons of water, 43–49 million tons of chlorine, 8.6–9.8 million tons of fluorine and 26–29 million tons of sulfur, comparable to the amounts released by Tambora in 1815 and by Huaynaputina in 1600.[55] Two sulfate spikes identified in the GISP2 ice core of Greenland around 6470 and 6476 BC may be linked to the Kurile Lake eruption.[56][57] The Kurile Lake eruption may have influenced the global climate.[49]

The eruption devastated the vegetation in southern Kamchatka, causing an ecological catastrophe.[49] Close to Kurile Lake, all vegetation would have been wiped out, and deposits left by the eruption would have hampered the revegetation as well. In more favourable terrain where the volcanic deposits were quickly removed, some plants like Alnus fruticosa did survive and quickly resettled the terrain.[58]

See also edit

References edit

  1. ^ Русское географическое общество (13 March 2023). "Впервые за четыре года замёрзло Курильское озеро" (in Russian).
  2. ^ "Satellite image of the source of Ozernaya from March 03, 2023: the river is free of ice at its source at the rare time of ice cover on Lake Kurilskoye". apps.sentinel-hub.com. Retrieved 2023-03-19., Sentinel-2
  3. ^ a b c d "Kurile Lake". Global Volcanism Program. Smithsonian Institution. Retrieved 2016-11-26.
  4. ^ a b c d e Ponomareva et al. 2004, p. 200.
  5. ^ a b c d Ponomareva et al. 2004, p. 201.
  6. ^ Hultén 1923, p. 329.
  7. ^ a b c d Ponomareva et al. 2004, p. 214.
  8. ^ a b c Bondarenko 1991, p. 537.
  9. ^ Gladyshev et al. 2011, p. 340.
  10. ^ a b c Sukhanov, V. V.; Lepskaya, E. V. (December 2023). "Dynamics of Phytoplankton Species Structure in the Kurile Lake (Kamchatka Peninsula)". Russian Journal of Marine Biology. 49 (6): 469. doi:10.1134/s1063074023060093. S2CID 267283359.
  11. ^ a b c d Ponomareva et al. 2004, p. 216.
  12. ^ a b c d Ponomareva et al. 2004, p. 215.
  13. ^ a b c d Ponomareva et al. 2004, p. 220.
  14. ^ Hultén 1923, p. 337.
  15. ^ a b c d e f Ponomareva et al. 2004, p. 211.
  16. ^ a b c d e f g h i j k Ponomareva et al. 2004, p. 202.
  17. ^ Ponomareva, Melekestsev & Braitseva 2013, p. 168.
  18. ^ a b Bondarenko 1991, p. 536.
  19. ^ Bindeman, I.N.; Leonov, V.L.; Izbekov, P.E.; Ponomareva, V.V.; Watts, K.E.; Shipley, N.K.; Perepelov, A.B.; Bazanova, L.I.; Jicha, B.R.; Singer, B.S.; Schmitt, A.K.; Portnyagin, M.V.; Chen, C.H. (January 2010). "Large-volume silicic volcanism in Kamchatka: Ar–Ar and U–Pb ages, isotopic, and geochemical characteristics of major pre-Holocene caldera-forming eruptions". Journal of Volcanology and Geothermal Research. 189 (1–2): 64. Bibcode:2010JVGR..189...57B. doi:10.1016/j.jvolgeores.2009.10.009.
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  26. ^ Revenko 1998, p. 14.
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  28. ^ a b c Milovskaya, Selifonov & Sinyakov 1998, p. 434.
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  30. ^ Gladyshev et al. 2011, p. 341.
  31. ^ a b Lepskaya, Ekaterina V.; Jewson, David H.; Usoltseva, Marina V. (November 2010). "Aulacosiera Subarctica in Kurilskoye Lake, Kamchatka: A deep, oligotrophic Lake and important Pacific salmon nursery". Diatom Research. 25 (2): 323–335. Bibcode:2010DiaRe..25..323L. doi:10.1080/0269249X.2010.9705853. S2CID 83984091.
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  33. ^ Manville, V. (February 2010). "An overview of break-out floods from intracaldera lakes". Global and Planetary Change. 70 (1–4): 21. Bibcode:2010GPC....70...14M. doi:10.1016/j.gloplacha.2009.11.004.
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  37. ^ Armstrong & Gaffney 2020, p. 205.
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  43. ^ The 7600 (14C) year BP Kurile Lake caldera-forming eruption ... - CORE
  44. ^ Ponomareva et al. 2004, p. 217.
  45. ^ Ponomareva et al. 2004, p. 207.
  46. ^ a b c Ponomareva et al. 2004, p. 208.
  47. ^ Ponomareva et al. 2004, pp. 209–211.
  48. ^ Ponomareva et al. 2004, p. 209.
  49. ^ a b c d e Ponomareva et al. 2004, p. 219.
  50. ^ Braitseva et al. 1992, p. 178.
  51. ^ a b Plechov, Balashova & Dirksen 2010, p. 974.
  52. ^ Burnatny, S. S.; Naumov, A. N.; Korzun, Yu. A. (2019). "A 13,000-Yr Record of Environmental Change from Tschuchye Lake in Northeast Yakutia". In Nurgaliev, Danis; Shcherbakov, Valery; Kosterov, Andrei; Spassov, Simo (eds.). Recent Advances in Rock Magnetism, Environmental Magnetism and Paleomagnetism. Springer Geophysics. Cham: Springer International Publishing. p. 136. doi:10.1007/978-3-319-90437-5_11. ISBN 978-3-319-90437-5. S2CID 135048486.
  53. ^ Ponomareva et al. 2004, pp. 211, 214.
  54. ^ Ponomareva et al. 2004, p. 206.
  55. ^ Plechov, Balashova & Dirksen 2010, p. 976.
  56. ^ Ponomareva et al. 2004, pp. 217–218.
  57. ^ Sigl, Michael; Toohey, Matthew; McConnell, Joseph R.; Cole-Dai, Jihong; Severi, Mirko (12 July 2022). "Volcanic stratospheric sulfur injections and aerosol optical depth during the Holocene (past 11 500 years) from a bipolar ice-core array". Earth System Science Data. 14 (7): 3175. Bibcode:2022ESSD...14.3167S. doi:10.5194/essd-14-3167-2022. hdl:2158/1279650. ISSN 1866-3508.
  58. ^ Dirksen, V.G.; Dirksen, O.V. "Paleonenviroinmental Effect and Plants Recovering After 7600 BP Catastrophic Kurile Lake Caldera-forming Eruuption, Kamchatka" (PDF). kiska.giseis.alaska.edu. University of Alaska System. Retrieved 26 November 2016.

External links edit

  • Armstrong, Kyle M.; Gaffney, Leigh P. (2020). "Kamchatka's Kurile Lake". Fisheries. 45 (4): 200–206. Bibcode:2020Fish...45..200A. doi:10.1002/fsh.10395. ISSN 1548-8446. S2CID 218925137.
  • Bondarenko, V.I. (1991). "Seismic reflection profiling in Lake Kurilskoe" (PDF). Volcanology and Seismology. 12 (4): 533–548. Retrieved 26 November 2016.
  • Braitseva, O.A.; Melekestsev, I.V.; Ponomareva, V.V.; Kirianov, V.Yu.; Litasova, S.N.; Sulerzhitsky, L.D. (January 1992). "Tephra of the largest prehistoric Holocene volcanic eruptions in Kamchatka". Quaternary International. 13–14: 177–180. Bibcode:1992QuInt..13..177B. doi:10.1016/1040-6182(92)90025-W.
  • Filatov, Dr Nikolai; Gronskaya, Dr Tatyana (2012-01-01). Bengtsson, Lars; Herschy, Reginald W.; Fairbridge, Rhodes W. (eds.). Encyclopedia of Lakes and Reservoirs. Encyclopedia of Earth Sciences Series. Springer Netherlands. pp. 674–679. doi:10.1007/978-1-4020-4410-6_198. ISBN 9781402056161.
  • Gladyshev, Michail I.; Semenchenko, Vitaliy P.; Dubovskaya, Olga P.; Fefilova, Elena B.; Makhutova, Olesia N.; Buseva, Zhanna F.; Sushchik, Nadezhda N.; Razlutskij, Vladimir I.; Lepskaya, Ekaterina V.; Baturina, Mariya A.; Kalachova, Galina S.; Kononova, Olga N. (December 2011). "Effect of temperature on contents of essential highly unsaturated fatty acids in freshwater zooplankton". Limnologica – Ecology and Management of Inland Waters. 41 (4): 339–347. doi:10.1016/j.limno.2011.03.001.
  • Hultén, Eric (1923). "Some Geographical Notes on the Map of South Kamtchatka". Geografiska Annaler. 5: 329–350. doi:10.2307/519666. JSTOR 519666.
  • Milovskaya, L.V.; Selifonov, M.M.; Sinyakov, S.A. (1998). "Ecological functioning of Lake Kuril relative to sockeye salmon production" (PDF). North Pacific Anadromous Fish Commission Bulletin No.1. North Pacific Anadromous Fish Commission. Retrieved 26 November 2016.
  • Plechov, P. Yu.; Balashova, A. L.; Dirksen, O. V. (9 September 2010). "Magma degassing during 7600 14C Kurile Lake caldera-forming eruption and its climatic impact". Doklady Earth Sciences. 433 (1): 974–977. Bibcode:2010DokES.433..974P. doi:10.1134/S1028334X10070275. S2CID 56184279.
  • Ponomareva, V.V.; Kyle, P.R.; Melekestsev, I.V.; Rinkleff, P.G.; Dirksen, O.V.; Sulerzhitsky, L.D.; Zaretskaia, N.E.; Rourke, R. (September 2004). "The 7600 (14C) year BP Kurile Lake caldera-forming eruption, Kamchatka, Russia: stratigraphy and field relationships" (PDF). Journal of Volcanology and Geothermal Research. 136 (3–4): 199–222. Bibcode:2004JVGR..136..199P. doi:10.1016/j.jvolgeores.2004.05.013.
  • Ponomareva, Vera; Melekestsev, Ivan; Braitseva, Olga (18 March 2013). Volcanism and Subduction: The Kamchatka Region (PDF). Geophysical Monograph Series. Vol. 172. Wiley Online Library. doi:10.1029/gm172. ISBN 978-0-87590-436-8. S2CID 127437883.
  • Revenko, Igor A. (1998-01-01). "Status of Brown Bears in Kamchatka, Russian Far East". Ursus. 10: 11–16. JSTOR 3873103.

May 01, 2024
kurile, lake, russian, Кури, льское, зеро, romanized, kuríl, skoye, Ózero, caldera, crater, lake, kamchatka, russia, also, known, kurilskoye, lake, kuril, lake, part, eastern, volcanic, zone, kamchatka, which, together, with, sredinny, range, forms, volcanic, . Kurile Lake Russian Kuri lskoe o zero romanized Kuril skoye ozero is a caldera and crater lake in Kamchatka Russia It is also known as Kurilskoye Lake or Kuril Lake 3 It is part of the Eastern Volcanic Zone of Kamchatka which together with the Sredinny Range forms one of the volcanic belts of Kamchatka These volcanoes form from the subduction of the Pacific Plate beneath the Okhotsk Plate and the Asian Plate Kurile LakeKurilskoe Lake Kuril LakeKurile lake and the Serdce Alaida islandLocationEastern Range Kamchatka Krai RussiaCoordinates51 27 N 157 07 E 51 45 N 157 12 E 51 45 157 12Primary outflowsOzernayaCatchment area392 km2 151 sq mi Max length14 km 8 7 mi Max width8 km 5 0 mi Surface area76 km2 29 sq mi Average depth195 m 640 ft Max depth316 m 1 037 ft Water volume14 82 km3 3 56 cu mi Surface elevation81 m 266 ft FrozenMarch April rare in cold winter 1 2 Islands5Settlementsnone Before the Kurile Lake caldera formed the Pauzhetka caldera was active during the Pleistocene and was the origin of the 443 000 8 000 years old Golygin ignimbrite The Kurile Lake caldera erupted 41 500 years ago and another small eruption occurred between 9 000 and 10 000 years ago then 6460 6414 BC a very large eruption took place forming the present day caldera and the Kurile Lake ignimbrite and deposited ash as far as 1 700 kilometres 1 100 mi away This eruption has a volume of 140 170 cubic kilometres 34 41 cu mi making it a VEI 7 class eruption and one of the largest during the Holocene Subsequently the volcanoes Diky Greben and Ilinsky grew around the caldera the last eruption from Ilinsky was in 1911 The caldera is filled by a lake with an area of 76 square kilometres 29 sq mi and a maximum depth of 316 metres 1 037 ft The largest sockeye salmon stocks in Asia live in the lake Contents 1 Geography and structure 2 Geology 2 1 Local 2 2 Regional explosive activity 2 3 Composition 3 Environment 3 1 Lake 4 Eruptive history 4 1 Effects and threats 5 See also 6 References 7 External linksGeography and structure editKurile Lake is found in the southern part of the Kamchatka Peninsula 3 in a rugged volcanic landscape 4 The region was not always part of the Kamchatka Peninsula during the middle Pleistocene it was an island 5 Georg Wilhelm Steller visited the area in 1740 1743 6 Kurile Lake is formed by two basins which are separated by a 150 metre wide 490 ft subaqueous ridge 7 The centre part of the lake is formed by a flat basin canyons cut into the slopes of the western side of the lake where the Ozernaya and Kumnynk rivers open into the lake The Etamynk and Khakytsin rivers conversely have formed an alluvial fan 8 The maximum depth of the lake is 316 metres 1 037 ft with an average depth of 195 metres 640 ft 9 or 180 metres 590 ft 10 The southern basin is deeper than the northern basin 300 metres 980 ft against the 200 metres 660 ft of the northern basin and is a Holocene caldera The nature of the northern basin is less clear Bondarenko in 1991 supposed that it was an older separate caldera which he named Ilinsky but Braitseva et al 1997 and Ponomareva et al 2004 consider both to be the Kurile Lake caldera 7 This caldera has an area of about 45 square kilometres 17 sq mi 11 or 14 by 8 kilometres 8 7 mi 5 0 mi 3 In that case the ridge that separates the two basins may be a deposit left when earthquakes preceding the caldera forming eruption caused Ilinsky volcano to collapse 12 Caldera collapse was controlled by faults that parallel the lake shores 8 Some islands in the lake formed by slumping and others are volcanic cones the Heart of Alaid Serdtze Alaida is a lava dome 300 metres 980 ft high 13 A number of lava domes and pyroclastic cones are found in the lake 13 The Severnaya bay may be an explosion crater 8 Lava flows from Ilinsky extend into the lake 14 Ring faults partially buried by alluvial fans and landslides limit the caldera in the lake 12 A large landslide forms Glinyany Peninsula in the southeastern shore of the lake 15 Post caldera activity has formed some islands in the lake and the Diky Greben volcano 7 Both Glinyany Peninsula and the post caldera lava domes Chayachii Serdtze Alaida Tugumynk were affected by slumping Approximately 120 160 metres 390 520 ft of sediment and volcanites bury the deposits left in the caldera by the caldera forming eruption 12 The rim of the Kurile Lake caldera is best expressed at Ilinsky volcano and south and northwest thereof 7 Close to the lake two Pleistocene caldera rims can be found and there may be more The volcanoes Diky Greben Ilinsky Kambalny Kosheleva and Zheltovsky surround Kurile Lake 16 Diky Greben formed after the eruption of Kurile Lake 13 Gravimetry indicates that there is still a magma chamber beneath Kurile Lake at a depth of about 4 kilometres 2 5 mi This magma chamber is about 10 kilometres 6 2 mi wide 11 nbsp Serdce Alaida nbsp Ilinsky volcano nbsp Diky GrebenGeology editThe Pacific Plate subducts at a pace of about 8 centimetres per year 3 1 in year beneath the Okhotsk Plate and Asian Plate This subduction is responsible for the Kamchatka Kuril Trench as well as for volcanism in Kamchatka The Wadati Benioff Zone lies c 100 kilometres 62 mi beneath Kurile Lake 5 Kurile Lake is included in the Eastern Volcanic Zone of Kamchatka 200 kilometres 120 mi away from the trench 5 It is one of the two or three volcanic zones of Kamchatka the other ones being the Central Depression and the Sredinny Range Only the first two have had historical activity 17 The neighbouring volcano Ilinsky was active in 1911 and Zheltovsky was active in 1923 16 Hydrothermal activity may still be ongoing in the lake 11 The oldest volcanoes of the Pauzhetka structure may be of Oligocene Miocene age during that time the area was in the sea The sedimentary Paratunka Formation and the Kurilsky complex were deposited during that time they are exposed east and southwest of Kurile Lake About 600 650 cubic kilometres 140 160 cu mi of basaltic rocks were erupted during the Miocene Pliocene The Pauzhetka depression formed during the Pliocene or Pleistocene and was most likely accompanied by the eruption of the 300 450 cubic kilometres 72 108 cu mi Golygino ignimbrite 18 The eruption of this ignimbrite occurred 443 000 8000 years ago 19 Afterwards a resurgent dome named the Kambalny ridge formed in the Pauzhetka structure as well as a proto Ilinsky volcano 18 nbsp Position of Kurile Lake in southern Kamchatka Local edit The basement in the area is formed by Miocene Pliocene sedimentary rocks and volcanic rocks During the Pleistocene calderas lava plateaus somma volcanoes like pre Ilinsky stratovolcanoes formed in the area 16 One caldera that formed in the area is the Pauzhetka Caldera of middle Pleistocene age As of 2004 update the possibility that a later caldera existed in the Pauzhetka caldera was considered 16 Kurile Lake is located in the eastern part of this Pauzhetka caldera which has dimensions of 55 by 35 kilometres 34 mi 22 mi In the centre of the Pauzhetka caldera lies a 650 metres 2 130 ft wide depression that covers an area of 25 by 20 kilometres 16 mi 12 mi 20 Regional explosive activity edit Southern Kamchatka has been the site of explosive eruptions during history 5 the Ksudach volcano 50 kilometres 31 mi north of Kurile Lake had five caldera forming eruptions during the Pleistocene and Holocene The time period between 6400 and 6600 BC was especially active with caldera forming eruptions including the one that formed Kurile Lake 16 Kurile Lake is not the only volcano in Kamchatka with major explosive eruptions during the Holocene that exceeded VEI 5 three other such eruptions occurred at Ksudach volcano and one at Karymsky volcano 4 Composition edit Volcanic rocks of Kurile Lake range from basaltic andesite to rhyolite They contain small to medium amounts of potassium 21 Rhyolite makes up the bulk of the eruption products of Kurile Lake Minerals contained include plagioclase orthopyroxene clinopyroxene magnetite and hornblende in decreasing order of importance 22 The ash becomes white away from the vent while near vent deposits are often yellow 23 Environment edit nbsp The environment at Kurile Lake Vegetation around the caldera consists mostly of bush and forest 4 At the edge of the lake there is no macrovegetation 24 Vegetation in Kamchatka overall consists mostly of alder bushes pine and stone birch Along valleys cottonwood and willow can be found as well 25 In 1998 Kurile Lake had the highest density of brown bears of Kamchatka and possibly of the entirety of Russia 26 The lake is a nature reserve 27 Lake edit nbsp The Ozernaya river drains the lake The Kurile Lake caldera is filled by the Kurile crater lake covering a surface area of 76 square kilometres 29 sq mi 4 to 77 1 square kilometres 29 8 sq mi 10 A lake existed already before the Kurile Lake caldera forming eruption 16 The present day lake has a volume of 14 6 cubic kilometres 3 5 cu mi and a catchment of 392 square kilometres 151 sq mi 28 it is surrounded by steep shores 29 Water remains in the lake for about eighteen years 10 In June 2011 a water temperature of 1 9 C 35 4 F was measured 30 The lake waters are oligotrophic 31 The Ozernaya River drains the lake to the Sea of Okhotsk 4 Reports in 1923 indicate that the lake was formerly up to 50 metres 160 ft higher than today possibly because lava flows dammed its outlet At least two other shorelines are found 15 20 metres 49 66 ft above the current water level 32 The caldera lake may have suffered a catastrophic outburst flood in the past 33 Diatoms form most of the phytoplankton with Cyclotella Melosira Stephanodiskus and Synedra 28 Dominant copepod species in summer 2011 include Cyclops scutifer and the dominant cladocerans Daphnia longiremis 34 Other species as well as rotifers are also present they constitute sources of food for sockeye salmons 35 A number of annelid species are also found many of the species that are found in neighbouring waters cannot be found in the lake 24 The chironomid midge Chaetocladius tatianae is endemic to the Kurile Lake watershed 36 Sockeye salmon fisheries are present at the lake 31 The lake is a major nursery for this species of fish 28 The number of fish in the lake ranges from 260 000 to over 6 million 35 The stocks found at Kurile Lake are the largest in Asia 27 Fishing of the salmon of the Ozernaya River has been regulated to allow their reproduction and to conserve bear populations 37 The lake is part of the Kamchatka National Reserve 38 Eruptive history edit nbsp Outcrop of pumice at Kuthiny Baty 4 km 2 5 mi from the lake The idea that pumice around Kurile Lake was formed by an eruption in the area of the lake was first suggested by Boris Piip in 1947 Later research identified these pumice as the product of the caldera forming eruption although some skepticism remains which considers these pumice as the product of fissure eruptions 16 An earlier Pleistocene caldera forming eruption took place 41 500 years ago 3 ash deposits from this eruption are found as far away as Magadan 1 000 kilometres 620 mi away from Kurile Lake 39 and possibly Lake El gygytgyn 40 The Kurile Lake caldera forming eruption also known as KO 16 occurred in 6460 6414 BC 41 It is the largest known Holocene eruption in Kamchatka Tephra from this eruption has been found in southern Kamchatka and also Magadan in Asia 16 The total volume of the Kurile Lake caldera forming eruption is about 140 170 cubic kilometres 34 41 cu mi corresponding to a volcanic explosivity index of 7 and comparable to the 1815 eruption of Tambora 42 43 Other volcanoes with such large eruptions during the Holocene include Baitoushan Crater Lake and Kikai 44 The caldera forming eruption commenced with a phreatoplinian eruption that generated deposits of fine ash Several yellowish rhyolitic ignimbrites were erupted reaching a thickness of over 50 metres 160 ft These ignimbrites filled gullies around the lake and also reach thicknesses of several tens of centimetres in the Vychenkiya River and Unkanovich River valleys 45 This eruption phase occurred through the lake 41 All these deposits were formed by the same event Subsequently a short eruption of lapilli and pumice consisting of dacite and rhyolite occurred most of it falling towards the northwest their thickness reaches 20 centimetres 7 9 in north of the lake Some basaltic scoria was also deposited during this phase 46 At this point the vent had emerged above the water level and was generating an eruption column that deposited ash over southern Kamchatka Eventually the vent widened and caused the eruption column to collapse At this point pyroclastic flows formed and deposited the Kurile Lake ignimbrite 41 Reaching a thickness of 150 metres 490 ft close to the lake it filled valleys overran plateaus and ridges and reached both the Pacific Ocean and the Sea of Okhotsk 46 The ignimbrite was highly mobile overrunning high topographic obstacles and flowing along valleys in a complex flow pattern 47 The ignimbrite covered a total surface area of 1 800 1 900 square kilometres 690 730 sq mi 11 This ignimbrite consists of rocks ranging from basaltic andesite to rhyolite with colours ranging from white to dark Unusually for such mixed composition ignimbrites the rhyolites overlie the more mafic deposits 46 These mafic ignimbrites are not found around the entire lake indicating that the magma chamber was asymmetric or its contents were erupted in an asymmetric fashion 41 The ignimbrite contains remnants of vegetation accretionary structures formed when the ignimbrite interacted with water breccia probably formed when conditions at the vent changed 48 involving the formation of a ring vent 41 Fumaroles formed as the ignimbrite overran rivers 49 Some post eruption alteration of the ignimbrite deposits also took place 15 In the lake itself the ignimbrite is about 400 metres 1 300 ft thick 12 The pumice deposits have been affected by erosion and possibly by fumarolic activity forming structures resembling overturned boats that were named Khutk s boats by native settlers 16 Ash from the eruption spread west northwest of Kurile Lake 50 covering a total surface of over 2 000 000 square kilometres 770 000 sq mi 51 it can be found at large distances from the caldera 1 millimetre thick 0 04 in layers have been found in the upper reaches of the Indigirka River 1 700 kilometres 1 100 mi away from Kurile Lake 15 and in the Oymyakon Plateau 52 Thicknesses still reach several centimetres in Magadan In the northern Kuriles the thickness reaches several tens of centimetres This ash is found in drilling cores in the Sea of Okhotsk 15 Coignimbrite ash formed when the ignimbrites reached the sea 49 In terms of composition it ranges from rhyolite to dacite and is poor in potassium 15 The ash is an important tephrochronological marker 53 and has been found as far away as Greenland 51 Before the eruption a 1 500 year lull in volcanic activity allowed the deposition of soils in the area 16 A minor eruption occurred at Kurile Lake between 9 000 and 10 000 years ago resulting in the deposition of tephra north of the caldera This tephra is formed by gray fine ash and lapilli consisting of dacitic pumice Other volcanoes also left several tephra deposits 54 Soils formed after the caldera forming eruptions also contain a number of ash layers by volcanoes both near and far 15 Volcanic activity occurred at Ilinsky volcano after the caldera forming eruption until 1901 and the similarity between Ilinsky and Kurile Lake rocks indicate that the activities of the two centres are related 49 Diky Greben formed less than 100 years after the formation of the caldera and was last active 1600 BP A number of other lava domes and pyroclastic cones formed inside the caldera shortly after the caldera forming eruption 13 Effects and threats edit The caldera forming eruption of Kurile Lake had a devastating effect on the surrounding area and had a noticeable effect far from the lake A significant amount of gas was released during the eruption including 3 7 4 2 billion metric tons of water 43 49 million tons of chlorine 8 6 9 8 million tons of fluorine and 26 29 million tons of sulfur comparable to the amounts released by Tambora in 1815 and by Huaynaputina in 1600 55 Two sulfate spikes identified in the GISP2 ice core of Greenland around 6470 and 6476 BC may be linked to the Kurile Lake eruption 56 57 The Kurile Lake eruption may have influenced the global climate 49 The eruption devastated the vegetation in southern Kamchatka causing an ecological catastrophe 49 Close to Kurile Lake all vegetation would have been wiped out and deposits left by the eruption would have hampered the revegetation as well In more favourable terrain where the volcanic deposits were quickly removed some plants like Alnus fruticosa did survive and quickly resettled the terrain 58 See also editList of volcanoes in RussiaReferences edit Russkoe geograficheskoe obshestvo 13 March 2023 Vpervye za chetyre goda zamyorzlo Kurilskoe ozero in Russian Satellite image of the source of Ozernaya from March 03 2023 the river is free of ice at its source at the rare time of ice cover on Lake Kurilskoye apps sentinel hub com Retrieved 2023 03 19 Sentinel 2 a b c d Kurile Lake Global Volcanism Program Smithsonian Institution Retrieved 2016 11 26 a b c d e Ponomareva et al 2004 p 200 a b c d Ponomareva et al 2004 p 201 Hulten 1923 p 329 a b c d Ponomareva et al 2004 p 214 a b c Bondarenko 1991 p 537 Gladyshev et al 2011 p 340 a b c Sukhanov V V Lepskaya E V December 2023 Dynamics of Phytoplankton Species Structure in the Kurile Lake Kamchatka Peninsula Russian Journal of Marine Biology 49 6 469 doi 10 1134 s1063074023060093 S2CID 267283359 a b c d Ponomareva et al 2004 p 216 a b c d Ponomareva et al 2004 p 215 a b c d Ponomareva et al 2004 p 220 Hulten 1923 p 337 a b c d e f Ponomareva et al 2004 p 211 a b c d e f g h i j k Ponomareva et al 2004 p 202 Ponomareva Melekestsev amp Braitseva 2013 p 168 a b Bondarenko 1991 p 536 Bindeman I N Leonov V L Izbekov P E Ponomareva V V Watts K E Shipley N K Perepelov A B Bazanova L I Jicha B R Singer B S Schmitt A K Portnyagin M V Chen C H January 2010 Large volume silicic volcanism in Kamchatka Ar Ar and U Pb ages isotopic and geochemical characteristics of major pre Holocene caldera forming eruptions Journal of Volcanology and Geothermal Research 189 1 2 64 Bibcode 2010JVGR 189 57B doi 10 1016 j jvolgeores 2009 10 009 Bondarenko 1991 p 533 Ponomareva Melekestsev amp Braitseva 2013 p 172 Braitseva et al 1992 p 177 Braitseva et al 1992 p 179 a b Timm Tarmo Vvedenskaya Tatyana L 2006 08 01 Oligochaeta Annelida of Lake Kurilskoe Kamchatka Peninsula Species Diversity 11 3 225 244 doi 10 12782 specdiv 11 225 ISSN 1342 1670 Revenko 1998 p 11 Revenko 1998 p 14 a b Filatov amp Gronskaya 2012 p 678 a b c Milovskaya Selifonov amp Sinyakov 1998 p 434 Hulten 1923 p 339 Gladyshev et al 2011 p 341 a b Lepskaya Ekaterina V Jewson David H Usoltseva Marina V November 2010 Aulacosiera Subarctica in Kurilskoye Lake Kamchatka A deep oligotrophic Lake and important Pacific salmon nursery Diatom Research 25 2 323 335 Bibcode 2010DiaRe 25 323L doi 10 1080 0269249X 2010 9705853 S2CID 83984091 Hulten 1923 p 338 Manville V February 2010 An overview of break out floods from intracaldera lakes Global and Planetary Change 70 1 4 21 Bibcode 2010GPC 70 14M doi 10 1016 j gloplacha 2009 11 004 Gladyshev et al 2011 p 343 a b Milovskaya Selifonov amp Sinyakov 1998 p 435 Makarchenko Eugenyi A Makarchenko Marina A 2006 Three new species of chironomids Diptera Chironomidae Orthocladiinae from the Russian Far East Russian Entomological Journal 15 1 73 75 CiteSeerX 10 1 1 556 4429 Armstrong amp Gaffney 2020 p 205 Armstrong amp Gaffney 2020 p 202 Braitseva O A Melekestsev I V Ponomareva V V Sulerzhitsky L D December 1995 Ages of calderas large explosive craters and active volcanoes in the Kuril Kamchatka region Russia PDF Bulletin of Volcanology 57 6 399 Bibcode 1995BVol 57 383B doi 10 1007 BF00300984 S2CID 54882931 Juschus Olaf Melles Martin Gebhardt A Catalina Niessen Frank December 2009 Late Quaternary mass movement events in Lake Elagygytgyn Northeastern Siberia Sedimentology 56 7 2162 Bibcode 2009Sedim 56 2155J doi 10 1111 j 1365 3091 2009 01074 x S2CID 129365218 a b c d e Ponomareva et al 2004 p 218 Self S Rampino M R Newton M S Wolff J A 1984 Volcanological study of the great Tambora eruption of 1815 Geology 12 11 659 Bibcode 1984Geo 12 659S doi 10 1130 0091 7613 1984 12 lt 659 VSOTGT gt 2 0 CO 2 The 7600 14C year BP Kurile Lake caldera forming eruption CORE Ponomareva et al 2004 p 217 Ponomareva et al 2004 p 207 a b c Ponomareva et al 2004 p 208 Ponomareva et al 2004 pp 209 211 Ponomareva et al 2004 p 209 a b c d e Ponomareva et al 2004 p 219 Braitseva et al 1992 p 178 a b Plechov Balashova amp Dirksen 2010 p 974 Burnatny S S Naumov A N Korzun Yu A 2019 A 13 000 Yr Record of Environmental Change from Tschuchye Lake in Northeast Yakutia In Nurgaliev Danis Shcherbakov Valery Kosterov Andrei Spassov Simo eds Recent Advances in Rock Magnetism Environmental Magnetism and Paleomagnetism Springer Geophysics Cham Springer International Publishing p 136 doi 10 1007 978 3 319 90437 5 11 ISBN 978 3 319 90437 5 S2CID 135048486 Ponomareva et al 2004 pp 211 214 Ponomareva et al 2004 p 206 Plechov Balashova amp Dirksen 2010 p 976 Ponomareva et al 2004 pp 217 218 Sigl Michael Toohey Matthew McConnell Joseph R Cole Dai Jihong Severi Mirko 12 July 2022 Volcanic stratospheric sulfur injections and aerosol optical depth during the Holocene past 11 500 years from a bipolar ice core array Earth System Science Data 14 7 3175 Bibcode 2022ESSD 14 3167S doi 10 5194 essd 14 3167 2022 hdl 2158 1279650 ISSN 1866 3508 Dirksen V G Dirksen O V Paleonenviroinmental Effect and Plants Recovering After 7600 BP Catastrophic Kurile Lake Caldera forming Eruuption Kamchatka PDF kiska giseis alaska edu University of Alaska System Retrieved 26 November 2016 External links editArmstrong Kyle M Gaffney Leigh P 2020 Kamchatka s Kurile Lake Fisheries 45 4 200 206 Bibcode 2020Fish 45 200A doi 10 1002 fsh 10395 ISSN 1548 8446 S2CID 218925137 Bondarenko V I 1991 Seismic reflection profiling in Lake Kurilskoe PDF Volcanology and Seismology 12 4 533 548 Retrieved 26 November 2016 Braitseva O A Melekestsev I V Ponomareva V V Kirianov V Yu Litasova S N Sulerzhitsky L D January 1992 Tephra of the largest prehistoric Holocene volcanic eruptions in Kamchatka Quaternary International 13 14 177 180 Bibcode 1992QuInt 13 177B doi 10 1016 1040 6182 92 90025 W Filatov Dr Nikolai Gronskaya Dr Tatyana 2012 01 01 Bengtsson Lars Herschy Reginald W Fairbridge Rhodes W eds Encyclopedia of Lakes and Reservoirs Encyclopedia of Earth Sciences Series Springer Netherlands pp 674 679 doi 10 1007 978 1 4020 4410 6 198 ISBN 9781402056161 Gladyshev Michail I Semenchenko Vitaliy P Dubovskaya Olga P Fefilova Elena B Makhutova Olesia N Buseva Zhanna F Sushchik Nadezhda N Razlutskij Vladimir I Lepskaya Ekaterina V Baturina Mariya A Kalachova Galina S Kononova Olga N December 2011 Effect of temperature on contents of essential highly unsaturated fatty acids in freshwater zooplankton Limnologica Ecology and Management of Inland Waters 41 4 339 347 doi 10 1016 j limno 2011 03 001 Hulten Eric 1923 Some Geographical Notes on the Map of South Kamtchatka Geografiska Annaler 5 329 350 doi 10 2307 519666 JSTOR 519666 Milovskaya L V Selifonov M M Sinyakov S A 1998 Ecological functioning of Lake Kuril relative to sockeye salmon production PDF North Pacific Anadromous Fish Commission Bulletin No 1 North Pacific Anadromous Fish Commission Retrieved 26 November 2016 Plechov P Yu Balashova A L Dirksen O V 9 September 2010 Magma degassing during 7600 14C Kurile Lake caldera forming eruption and its climatic impact Doklady Earth Sciences 433 1 974 977 Bibcode 2010DokES 433 974P doi 10 1134 S1028334X10070275 S2CID 56184279 Ponomareva V V Kyle P R Melekestsev I V Rinkleff P G Dirksen O V Sulerzhitsky L D Zaretskaia N E Rourke R September 2004 The 7600 14C year BP Kurile Lake caldera forming eruption Kamchatka Russia stratigraphy and field relationships PDF Journal of Volcanology and Geothermal Research 136 3 4 199 222 Bibcode 2004JVGR 136 199P doi 10 1016 j jvolgeores 2004 05 013 Ponomareva Vera Melekestsev Ivan Braitseva Olga 18 March 2013 Volcanism and Subduction The Kamchatka Region PDF Geophysical Monograph Series Vol 172 Wiley Online Library doi 10 1029 gm172 ISBN 978 0 87590 436 8 S2CID 127437883 Revenko Igor A 1998 01 01 Status of Brown Bears in Kamchatka Russian Far East Ursus 10 11 16 JSTOR 3873103 Retrieved from https en wikipedia org w index php title Kurile Lake amp oldid 1206431013, wikipedia, wiki, book, books, library,

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