Partial radiogenic heat model for Earth revealed by geoneutrino measurements

A. Gando; Y. Gando; K. Ichimura; H. Ikeda; K. Inoue; Y. Kibe; Y. Kishimoto; M. Koga; Y. Minekawa; T. Mitsui; T. Morikawa; N. Nagai; K. Nakajima; K. Nakamura; K. Narita; I. Shimizu; Y. Shimizu; J. Shirai; F. Suekane; A. Suzuki; H. Takahashi; N. Takahashi; Y. Takemoto; K. Tamae; H. Watanabe; B. D. Xu; H. Yabumoto; H. Yoshida; S. Yoshida; S. Enomoto; A. Kozlov; H. Murayama; C. Grant; G. Keefer; A. Piepke; T. I. Banks; T. Bloxham; J. A. Detwiler; S. J. Freedman; B. K. Fujikawa; K. Han; R. Kadel; T. O'Donnell; H. M. Steiner; D. A. Dwyer; R. D. McKeown; C. Zhang; B. E. Berger; C. E. Lane; J. Maricic; T. Miletic; M. Batygov; J. G. Learned; S. Matsuno; M. Sakai; G. A. Horton-Smith; K. E. Downum; G. Gratta; K. Tolich; Y. Efremenko; O. Perevozchikov; H. J. Karwowski; D. M. Markoff; W. Tornow; K. M. Heeger; M. P. Decowski

doi:10.1038/ngeo1205

Partial radiogenic heat model for Earth revealed by geoneutrino measurements

A. Gando, Y. Gando, K. Ichimura, H. Ikeda, K. Inoue, Y. Kibe, Y. Kishimoto, M. Koga, Y. Minekawa, T. Mitsui, T. Morikawa, N. Nagai, K. Nakajima, K. Nakamura, K. Narita, I. Shimizu, Y. Shimizu, J. Shirai, F. Suekane, A. SuzukiH. Takahashi, N. Takahashi, Y. Takemoto, K. Tamae, H. Watanabe, B. D. Xu, H. Yabumoto, H. Yoshida, S. Yoshida, S. Enomoto, A. Kozlov, H. Murayama, C. Grant, G. Keefer, A. Piepke, T. I. Banks, T. Bloxham, J. A. Detwiler, S. J. Freedman, B. K. Fujikawa, K. Han, R. Kadel, T. O'Donnell, H. M. Steiner, D. A. Dwyer, R. D. McKeown, C. Zhang, B. E. Berger, C. E. Lane, J. Maricic, T. Miletic, M. Batygov, J. G. Learned, S. Matsuno, M. Sakai, G. A. Horton-Smith, K. E. Downum, G. Gratta, K. Tolich, Y. Efremenko, O. Perevozchikov, H. J. Karwowski, D. M. Markoff, W. Tornow, K. M. Heeger, M. P. Decowski

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181 Scopus citations

Abstract

The Earth has cooled since its formation, yet the decay of radiogenic isotopes, and in particular uranium, thorium and potassium, in the planet's interior provides a continuing heat source. The current total heat flux from the Earth to space is 44.2± 1.0TW, but the relative contributions from residual primordial heat and radiogenic decay remain uncertain. However, radiogenic decay can be estimated from the flux of geoneutrinos, electrically neutral particles that are emitted during radioactive decay and can pass through the Earth virtually unaffected. Here we combine precise measurements of the geoneutrino flux from the Kamioka Liquid-Scintillator Antineutrino Detector, Japan, with existing measurements from the Borexino detector, Italy. We find that decay of uranium-238 and thorium-232 together contribute 20.0 ^+8.8_-8.6 TW to Earth's heat flux. The neutrinos emitted from the decay of potassium-40 are below the limits of detection in our experiments, but are known to contribute 4TW. Taken together, our observations indicate that heat from radioactive decay contributes about half of Earth's total heat flux. We therefore conclude that Earth's primordial heat supply has not yet been exhausted.

Original language	English (US)
Pages (from-to)	647-651
Number of pages	5
Journal	Nature Geoscience
Volume	4
Issue number	9
DOIs	https://doi.org/10.1038/ngeo1205
State	Published - Sep 2011
Externally published	Yes

ASJC Scopus subject areas

General Earth and Planetary Sciences

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10.1038/ngeo1205

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Gando, A., Gando, Y., Ichimura, K., Ikeda, H., Inoue, K., Kibe, Y., Kishimoto, Y., Koga, M., Minekawa, Y., Mitsui, T., Morikawa, T., Nagai, N., Nakajima, K., Nakamura, K., Narita, K., Shimizu, I., Shimizu, Y., Shirai, J., Suekane, F., ... Decowski, M. P. (2011). Partial radiogenic heat model for Earth revealed by geoneutrino measurements. Nature Geoscience, 4(9), 647-651. https://doi.org/10.1038/ngeo1205

Gando, A, Gando, Y, Ichimura, K, Ikeda, H, Inoue, K, Kibe, Y, Kishimoto, Y, Koga, M, Minekawa, Y, Mitsui, T, Morikawa, T, Nagai, N, Nakajima, K, Nakamura, K, Narita, K, Shimizu, I, Shimizu, Y, Shirai, J, Suekane, F, Suzuki, A, Takahashi, H, Takahashi, N, Takemoto, Y, Tamae, K, Watanabe, H, Xu, BD, Yabumoto, H, Yoshida, H, Yoshida, S, Enomoto, S, Kozlov, A, Murayama, H, Grant, C, Keefer, G, Piepke, A, Banks, TI, Bloxham, T, Detwiler, JA, Freedman, SJ, Fujikawa, BK, Han, K, Kadel, R, O'Donnell, T, Steiner, HM, Dwyer, DA, McKeown, RD, Zhang, C, Berger, BE, Lane, CE, Maricic, J, Miletic, T, Batygov, M, Learned, JG, Matsuno, S, Sakai, M, Horton-Smith, GA, Downum, KE, Gratta, G, Tolich, K, Efremenko, Y, Perevozchikov, O, Karwowski, HJ, Markoff, DM, Tornow, W, Heeger, KM & Decowski, MP 2011, 'Partial radiogenic heat model for Earth revealed by geoneutrino measurements', Nature Geoscience, vol. 4, no. 9, pp. 647-651. https://doi.org/10.1038/ngeo1205

@article{8e6559297c0a4f6a931f8eb8baa324fb,

title = "Partial radiogenic heat model for Earth revealed by geoneutrino measurements",

abstract = "The Earth has cooled since its formation, yet the decay of radiogenic isotopes, and in particular uranium, thorium and potassium, in the planet's interior provides a continuing heat source. The current total heat flux from the Earth to space is 44.2± 1.0TW, but the relative contributions from residual primordial heat and radiogenic decay remain uncertain. However, radiogenic decay can be estimated from the flux of geoneutrinos, electrically neutral particles that are emitted during radioactive decay and can pass through the Earth virtually unaffected. Here we combine precise measurements of the geoneutrino flux from the Kamioka Liquid-Scintillator Antineutrino Detector, Japan, with existing measurements from the Borexino detector, Italy. We find that decay of uranium-238 and thorium-232 together contribute 20.0 +8.8-8.6 TW to Earth's heat flux. The neutrinos emitted from the decay of potassium-40 are below the limits of detection in our experiments, but are known to contribute 4TW. Taken together, our observations indicate that heat from radioactive decay contributes about half of Earth's total heat flux. We therefore conclude that Earth's primordial heat supply has not yet been exhausted.",

author = "A. Gando and Y. Gando and K. Ichimura and H. Ikeda and K. Inoue and Y. Kibe and Y. Kishimoto and M. Koga and Y. Minekawa and T. Mitsui and T. Morikawa and N. Nagai and K. Nakajima and K. Nakamura and K. Narita and I. Shimizu and Y. Shimizu and J. Shirai and F. Suekane and A. Suzuki and H. Takahashi and N. Takahashi and Y. Takemoto and K. Tamae and H. Watanabe and Xu, {B. D.} and H. Yabumoto and H. Yoshida and S. Yoshida and S. Enomoto and A. Kozlov and H. Murayama and C. Grant and G. Keefer and A. Piepke and Banks, {T. I.} and T. Bloxham and Detwiler, {J. A.} and Freedman, {S. J.} and Fujikawa, {B. K.} and K. Han and R. Kadel and T. O'Donnell and Steiner, {H. M.} and Dwyer, {D. A.} and McKeown, {R. D.} and C. Zhang and Berger, {B. E.} and Lane, {C. E.} and J. Maricic and T. Miletic and M. Batygov and Learned, {J. G.} and S. Matsuno and M. Sakai and Horton-Smith, {G. A.} and Downum, {K. E.} and G. Gratta and K. Tolich and Y. Efremenko and O. Perevozchikov and Karwowski, {H. J.} and Markoff, {D. M.} and W. Tornow and Heeger, {K. M.} and Decowski, {M. P.}",

note = "Funding Information: We thank E. Ohtani and W. F. McDonough for advice and guidance. The KamLAND experiment is supported by a Grant-in-Aid for Specially Promoted Research under grant 16002002 of the Japanese Ministry of Education, Culture, Sports, Science and Technology; the World Premier International Research Center Initiative (WPI Initiative), MEXT, Japan; and the US Department of Energy (DOE) grants DEFG03-00ER41138 and DE-AC02-05CH11231, as well as other DOE grants to individual institutions. The reactor data are provided by courtesy of the following electric associations in Japan: Hokkaido, Tohoku, Tokyo, Hokuriku, Chubu, Kansai, Chugoku, Shikoku and Kyushu Electric Power Companies, Japan Atomic Power Company and Japan Atomic Energy Agency. The Kamioka Mining and Smelting Company has provided service for activities in the mine.",

year = "2011",

month = sep,

doi = "10.1038/ngeo1205",

language = "English (US)",

volume = "4",

pages = "647--651",

journal = "Nature Geoscience",

issn = "1752-0894",

publisher = "Nature Publishing Group",

number = "9",

}

TY - JOUR

T1 - Partial radiogenic heat model for Earth revealed by geoneutrino measurements

AU - Gando, A.

AU - Gando, Y.

AU - Ichimura, K.

AU - Ikeda, H.

AU - Inoue, K.

AU - Kibe, Y.

AU - Kishimoto, Y.

AU - Koga, M.

AU - Minekawa, Y.

AU - Mitsui, T.

AU - Morikawa, T.

AU - Nagai, N.

AU - Nakajima, K.

AU - Nakamura, K.

AU - Narita, K.

AU - Shimizu, I.

AU - Shimizu, Y.

AU - Shirai, J.

AU - Suekane, F.

AU - Suzuki, A.

AU - Takahashi, H.

AU - Takahashi, N.

AU - Takemoto, Y.

AU - Tamae, K.

AU - Watanabe, H.

AU - Xu, B. D.

AU - Yabumoto, H.

AU - Yoshida, H.

AU - Yoshida, S.

AU - Enomoto, S.

AU - Kozlov, A.

AU - Murayama, H.

AU - Grant, C.

AU - Keefer, G.

AU - Piepke, A.

AU - Banks, T. I.

AU - Bloxham, T.

AU - Detwiler, J. A.

AU - Freedman, S. J.

AU - Fujikawa, B. K.

AU - Han, K.

AU - Kadel, R.

AU - O'Donnell, T.

AU - Steiner, H. M.

AU - Dwyer, D. A.

AU - McKeown, R. D.

AU - Zhang, C.

AU - Berger, B. E.

AU - Lane, C. E.

AU - Maricic, J.

AU - Miletic, T.

AU - Batygov, M.

AU - Learned, J. G.

AU - Matsuno, S.

AU - Sakai, M.

AU - Horton-Smith, G. A.

AU - Downum, K. E.

AU - Gratta, G.

AU - Tolich, K.

AU - Efremenko, Y.

AU - Perevozchikov, O.

AU - Karwowski, H. J.

AU - Markoff, D. M.

AU - Tornow, W.

AU - Heeger, K. M.

AU - Decowski, M. P.

N1 - Funding Information: We thank E. Ohtani and W. F. McDonough for advice and guidance. The KamLAND experiment is supported by a Grant-in-Aid for Specially Promoted Research under grant 16002002 of the Japanese Ministry of Education, Culture, Sports, Science and Technology; the World Premier International Research Center Initiative (WPI Initiative), MEXT, Japan; and the US Department of Energy (DOE) grants DEFG03-00ER41138 and DE-AC02-05CH11231, as well as other DOE grants to individual institutions. The reactor data are provided by courtesy of the following electric associations in Japan: Hokkaido, Tohoku, Tokyo, Hokuriku, Chubu, Kansai, Chugoku, Shikoku and Kyushu Electric Power Companies, Japan Atomic Power Company and Japan Atomic Energy Agency. The Kamioka Mining and Smelting Company has provided service for activities in the mine.

PY - 2011/9

Y1 - 2011/9

N2 - The Earth has cooled since its formation, yet the decay of radiogenic isotopes, and in particular uranium, thorium and potassium, in the planet's interior provides a continuing heat source. The current total heat flux from the Earth to space is 44.2± 1.0TW, but the relative contributions from residual primordial heat and radiogenic decay remain uncertain. However, radiogenic decay can be estimated from the flux of geoneutrinos, electrically neutral particles that are emitted during radioactive decay and can pass through the Earth virtually unaffected. Here we combine precise measurements of the geoneutrino flux from the Kamioka Liquid-Scintillator Antineutrino Detector, Japan, with existing measurements from the Borexino detector, Italy. We find that decay of uranium-238 and thorium-232 together contribute 20.0 +8.8-8.6 TW to Earth's heat flux. The neutrinos emitted from the decay of potassium-40 are below the limits of detection in our experiments, but are known to contribute 4TW. Taken together, our observations indicate that heat from radioactive decay contributes about half of Earth's total heat flux. We therefore conclude that Earth's primordial heat supply has not yet been exhausted.

AB - The Earth has cooled since its formation, yet the decay of radiogenic isotopes, and in particular uranium, thorium and potassium, in the planet's interior provides a continuing heat source. The current total heat flux from the Earth to space is 44.2± 1.0TW, but the relative contributions from residual primordial heat and radiogenic decay remain uncertain. However, radiogenic decay can be estimated from the flux of geoneutrinos, electrically neutral particles that are emitted during radioactive decay and can pass through the Earth virtually unaffected. Here we combine precise measurements of the geoneutrino flux from the Kamioka Liquid-Scintillator Antineutrino Detector, Japan, with existing measurements from the Borexino detector, Italy. We find that decay of uranium-238 and thorium-232 together contribute 20.0 +8.8-8.6 TW to Earth's heat flux. The neutrinos emitted from the decay of potassium-40 are below the limits of detection in our experiments, but are known to contribute 4TW. Taken together, our observations indicate that heat from radioactive decay contributes about half of Earth's total heat flux. We therefore conclude that Earth's primordial heat supply has not yet been exhausted.

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U2 - 10.1038/ngeo1205

DO - 10.1038/ngeo1205

M3 - Article

AN - SCOPUS:80052338035

SN - 1752-0894

VL - 4

SP - 647

EP - 651

JO - Nature Geoscience

JF - Nature Geoscience

IS - 9

ER -

Partial radiogenic heat model for Earth revealed by geoneutrino measurements

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