Oceanic core complexes and crustal accretion at slow-speading ridges

Benoit Ildefonse; D. K. Blackman; B. E. John; Y. Ohara; D. J. Miller; C. J. MacLeod; N. Abe; M. Abratis; E. S. Andal; M. Andréani; S. Awaji; J. S. Beard; D. Brunelli; A. B. Charney; D. M. Christie; A. G. Delacour; H. Delius; M. Drouin; F. Einaudi; J. Escartin; B. R. Frost; P. B. Fryer; J. S. Gee; M. Godard; C. B. Grimes; A. Halfpenny; H. E. Hansen; A. C. Harris; N. W. Hayman; E. Hellebrand; T. Hirose; J. G. Hirth; S. Ishimaru; K. T.M. Johnson; G. D. Karner; M. Linek; J. Maeda; O. U. Mason; A. M. McCaig; K. Michibayashi; A. Morris; T. Nakagawa; T. Nozaka; M. Rosner; R. C. Searle; G. Suhr; A. Tamura; M. Tominaga; A. von der Handt; T. Yamasaki

doi:10.1130/G23531A.1

Oceanic core complexes and crustal accretion at slow-speading ridges

Benoit Ildefonse, D. K. Blackman, B. E. John, Y. Ohara, D. J. Miller, C. J. MacLeod, N. Abe, M. Abratis, E. S. Andal, M. Andréani, S. Awaji, J. S. Beard, D. Brunelli, A. B. Charney, D. M. Christie, A. G. Delacour, H. Delius, M. Drouin, F. Einaudi, J. EscartinB. R. Frost, P. B. Fryer, J. S. Gee, M. Godard, C. B. Grimes, A. Halfpenny, H. E. Hansen, A. C. Harris, N. W. Hayman, E. Hellebrand, T. Hirose, J. G. Hirth, S. Ishimaru, K. T.M. Johnson, G. D. Karner, M. Linek, J. Maeda, O. U. Mason, A. M. McCaig, K. Michibayashi, A. Morris, T. Nakagawa, T. Nozaka, M. Rosner, R. C. Searle, G. Suhr, A. Tamura, M. Tominaga, A. von der Handt, T. Yamasaki

Earth and Environmental Sciences-Twin Cities

Research output: Contribution to journal › Article › peer-review

302 Scopus citations

Abstract

Oceanic core complexes expose gabbroic rocks on the seafloor via detachment faulting, often associated with serpentinized peridotite. The thickness of these serpentinite units is unknown. Assuming that the steep slopes that typically surround these core complexes provide a cross section through the structure, it has been inferred that serpentinites compose much of the section to depths of at least several hundred meters. However, deep drilling at oceanic core complexes has recovered gabbroic sequences with virtually no serpentinized peridotite. We propose a revised model for oceanic core complex development based on consideration of the rheological differences between gabbro and serpentinized peridobte: emplacement of a large intrusive gabbro body into a predominantly peridotite host is followed by localization of strain around the margins of the pluton, eventually resulting in an uplifted gabbroic core surrounded by deformed serpentinite. Oceanic core complexes may therefore reflect processes associated with relatively enhanced periods of mafic intrusion within overall magma-poor regions of slow- and ultra-dow-spreading ridges.

Original language	English (US)
Pages (from-to)	623-626
Number of pages	4
Journal	Geology
Volume	35
Issue number	7
DOIs	https://doi.org/10.1130/G23531A.1
State	Published - Jul 2007

Keywords

Gabbro
Integrated Ocean Dilling Program
Mid-Atlantic Ridge
Mid-ocean ridges
Ocean Drilling Program
Oceanic core complex
Oceanic lithosphere
Serpentinite

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Publisher link

10.1130/G23531A.1

Find It

Find It at U of M Libraries

Cite this

Ildefonse, B., Blackman, D. K., John, B. E., Ohara, Y., Miller, D. J., MacLeod, C. J., Abe, N., Abratis, M., Andal, E. S., Andréani, M., Awaji, S., Beard, J. S., Brunelli, D., Charney, A. B., Christie, D. M., Delacour, A. G., Delius, H., Drouin, M., Einaudi, F., ... Yamasaki, T. (2007). Oceanic core complexes and crustal accretion at slow-speading ridges. Geology, 35(7), 623-626. https://doi.org/10.1130/G23531A.1

Ildefonse, B, Blackman, DK, John, BE, Ohara, Y, Miller, DJ, MacLeod, CJ, Abe, N, Abratis, M, Andal, ES, Andréani, M, Awaji, S, Beard, JS, Brunelli, D, Charney, AB, Christie, DM, Delacour, AG, Delius, H, Drouin, M, Einaudi, F, Escartin, J, Frost, BR, Fryer, PB, Gee, JS, Godard, M, Grimes, CB, Halfpenny, A, Hansen, HE, Harris, AC, Hayman, NW, Hellebrand, E, Hirose, T, Hirth, JG, Ishimaru, S, Johnson, KTM, Karner, GD, Linek, M, Maeda, J, Mason, OU, McCaig, AM, Michibayashi, K, Morris, A, Nakagawa, T, Nozaka, T, Rosner, M, Searle, RC, Suhr, G, Tamura, A, Tominaga, M, von der Handt, A & Yamasaki, T 2007, 'Oceanic core complexes and crustal accretion at slow-speading ridges', Geology, vol. 35, no. 7, pp. 623-626. https://doi.org/10.1130/G23531A.1

@article{9d0e28801afc4cde899b262c65d110d2,

title = "Oceanic core complexes and crustal accretion at slow-speading ridges",

abstract = "Oceanic core complexes expose gabbroic rocks on the seafloor via detachment faulting, often associated with serpentinized peridotite. The thickness of these serpentinite units is unknown. Assuming that the steep slopes that typically surround these core complexes provide a cross section through the structure, it has been inferred that serpentinites compose much of the section to depths of at least several hundred meters. However, deep drilling at oceanic core complexes has recovered gabbroic sequences with virtually no serpentinized peridotite. We propose a revised model for oceanic core complex development based on consideration of the rheological differences between gabbro and serpentinized peridobte: emplacement of a large intrusive gabbro body into a predominantly peridotite host is followed by localization of strain around the margins of the pluton, eventually resulting in an uplifted gabbroic core surrounded by deformed serpentinite. Oceanic core complexes may therefore reflect processes associated with relatively enhanced periods of mafic intrusion within overall magma-poor regions of slow- and ultra-dow-spreading ridges.",

keywords = "Gabbro, Integrated Ocean Dilling Program, Mid-Atlantic Ridge, Mid-ocean ridges, Ocean Drilling Program, Oceanic core complex, Oceanic lithosphere, Serpentinite",

author = "Benoit Ildefonse and Blackman, {D. K.} and John, {B. E.} and Y. Ohara and Miller, {D. J.} and MacLeod, {C. J.} and N. Abe and M. Abratis and Andal, {E. S.} and M. Andr{\'e}ani and S. Awaji and Beard, {J. S.} and D. Brunelli and Charney, {A. B.} and Christie, {D. M.} and Delacour, {A. G.} and H. Delius and M. Drouin and F. Einaudi and J. Escartin and Frost, {B. R.} and Fryer, {P. B.} and Gee, {J. S.} and M. Godard and Grimes, {C. B.} and A. Halfpenny and Hansen, {H. E.} and Harris, {A. C.} and Hayman, {N. W.} and E. Hellebrand and T. Hirose and Hirth, {J. G.} and S. Ishimaru and Johnson, {K. T.M.} and Karner, {G. D.} and M. Linek and J. Maeda and Mason, {O. U.} and McCaig, {A. M.} and K. Michibayashi and A. Morris and T. Nakagawa and T. Nozaka and M. Rosner and Searle, {R. C.} and G. Suhr and A. Tamura and M. Tominaga and {von der Handt}, A. and T. Yamasaki",

year = "2007",

month = jul,

doi = "10.1130/G23531A.1",

language = "English (US)",

volume = "35",

pages = "623--626",

journal = "Geology",

issn = "0091-7613",

publisher = "Geological Society of America",

number = "7",

}

TY - JOUR

T1 - Oceanic core complexes and crustal accretion at slow-speading ridges

AU - Ildefonse, Benoit

AU - Blackman, D. K.

AU - John, B. E.

AU - Ohara, Y.

AU - Miller, D. J.

AU - MacLeod, C. J.

AU - Abe, N.

AU - Abratis, M.

AU - Andal, E. S.

AU - Andréani, M.

AU - Awaji, S.

AU - Beard, J. S.

AU - Brunelli, D.

AU - Charney, A. B.

AU - Christie, D. M.

AU - Delacour, A. G.

AU - Delius, H.

AU - Drouin, M.

AU - Einaudi, F.

AU - Escartin, J.

AU - Frost, B. R.

AU - Fryer, P. B.

AU - Gee, J. S.

AU - Godard, M.

AU - Grimes, C. B.

AU - Halfpenny, A.

AU - Hansen, H. E.

AU - Harris, A. C.

AU - Hayman, N. W.

AU - Hellebrand, E.

AU - Hirose, T.

AU - Hirth, J. G.

AU - Ishimaru, S.

AU - Johnson, K. T.M.

AU - Karner, G. D.

AU - Linek, M.

AU - Maeda, J.

AU - Mason, O. U.

AU - McCaig, A. M.

AU - Michibayashi, K.

AU - Morris, A.

AU - Nakagawa, T.

AU - Nozaka, T.

AU - Rosner, M.

AU - Searle, R. C.

AU - Suhr, G.

AU - Tamura, A.

AU - Tominaga, M.

AU - von der Handt, A.

AU - Yamasaki, T.

PY - 2007/7

Y1 - 2007/7

N2 - Oceanic core complexes expose gabbroic rocks on the seafloor via detachment faulting, often associated with serpentinized peridotite. The thickness of these serpentinite units is unknown. Assuming that the steep slopes that typically surround these core complexes provide a cross section through the structure, it has been inferred that serpentinites compose much of the section to depths of at least several hundred meters. However, deep drilling at oceanic core complexes has recovered gabbroic sequences with virtually no serpentinized peridotite. We propose a revised model for oceanic core complex development based on consideration of the rheological differences between gabbro and serpentinized peridobte: emplacement of a large intrusive gabbro body into a predominantly peridotite host is followed by localization of strain around the margins of the pluton, eventually resulting in an uplifted gabbroic core surrounded by deformed serpentinite. Oceanic core complexes may therefore reflect processes associated with relatively enhanced periods of mafic intrusion within overall magma-poor regions of slow- and ultra-dow-spreading ridges.

AB - Oceanic core complexes expose gabbroic rocks on the seafloor via detachment faulting, often associated with serpentinized peridotite. The thickness of these serpentinite units is unknown. Assuming that the steep slopes that typically surround these core complexes provide a cross section through the structure, it has been inferred that serpentinites compose much of the section to depths of at least several hundred meters. However, deep drilling at oceanic core complexes has recovered gabbroic sequences with virtually no serpentinized peridotite. We propose a revised model for oceanic core complex development based on consideration of the rheological differences between gabbro and serpentinized peridobte: emplacement of a large intrusive gabbro body into a predominantly peridotite host is followed by localization of strain around the margins of the pluton, eventually resulting in an uplifted gabbroic core surrounded by deformed serpentinite. Oceanic core complexes may therefore reflect processes associated with relatively enhanced periods of mafic intrusion within overall magma-poor regions of slow- and ultra-dow-spreading ridges.

KW - Gabbro

KW - Integrated Ocean Dilling Program

KW - Mid-Atlantic Ridge

KW - Mid-ocean ridges

KW - Ocean Drilling Program

KW - Oceanic core complex

KW - Oceanic lithosphere

KW - Serpentinite

UR - http://www.scopus.com/inward/record.url?scp=34547094343&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=34547094343&partnerID=8YFLogxK

U2 - 10.1130/G23531A.1

DO - 10.1130/G23531A.1

M3 - Article

AN - SCOPUS:34547094343

SN - 0091-7613

VL - 35

SP - 623

EP - 626

JO - Geology

JF - Geology

IS - 7

ER -

Oceanic core complexes and crustal accretion at slow-speading ridges

Abstract

Keywords

UN SDGs

Publisher link

Find It

Other files and links

Fingerprint

Cite this