International Ocean Discovery Program Expedition 360 Preliminary Report: Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1)

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Henry J.B. Dick
  • Christopher J. MacLeod
  • Peter Blum
  • Natsue Abe
  • Donna K. Blackman
  • Julie A. Bowles
  • Michael J. Cheadle
  • Kyungo Cho
  • Jakub Ciązela
  • Jeremy R. Deans
  • Virginia P. Edgcomb
  • Carlotta Ferrando
  • Lydéric France
  • Biswajit Ghosh
  • Benoît M. Ildefonse
  • Mark A. Kendrick
  • Juergen H. Koepke
  • James A.M. Leong
  • Chuanzhou Liu
  • Qiang Ma
  • Tomoaki Morishita
  • Antony Morris
  • James H. Natland
  • Toshio Nozaka
  • Oliver Pluemper
  • Alessio Sanfilippo
  • Jason B. Sylvan
  • Maurice A. Tivey
  • Riccardo Tribuzio
  • Luis G.F. Viegas
  • Lucas Kavanagh
  • Marion Burgio
  • Alejandra Martinez
  • Jiansong Zhang
  • Terry Skinner
  • James Samuel McLelland

Organisationseinheiten

Externe Organisationen

  • Woods Hole Oceanographic Institution
  • Cardiff University
  • Texas A and M University
  • Japan Agency for Marine-Earth Science and Technology (JAMSTEC)
  • University of California at San Diego
  • University of Wisconsin Milwaukee
  • University of Wyoming
  • Pukyong National University
  • Adam-Mickiewicz-Universität Posen
  • Texas Tech University
  • Universität Montpellier
  • Université de Lorraine (UL)
  • University of Calcutta
  • Australian National University
  • Arizona State University
  • CAS - Institute of Geology and Geophysics
  • Tongji University
  • Kanazawa University
  • University of Plymouth
  • University of Miami (UM)
  • Okayama University
  • Utrecht University
  • Università degli Studi di Pavia
  • Universidade de Sao Paulo
  • Xinhua News Agency Shanghai Branch
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)1-50
Seitenumfang50
FachzeitschriftInternational Ocean Discovery Program: Preliminary Reports
Ausgabenummer360
PublikationsstatusVeröffentlicht - Apr. 2016

Abstract

International Ocean Discovery Program (IODP) Expedition 360 was the first leg of Phase I of the SloMo (shorthand for "The nature of the lower crust and Moho at slower spreading ridges") Project, a multiphase drilling program that proposes to drill through the outermost of the global seismic velocity discontinuities, the Mohorovičić seismic discontinuity (Moho). The Moho corresponds to a compressional wave velocity increase, typically at ∼7 km beneath the oceans, and has generally been regarded as the boundary between crust and mantle. An alternative model, that the Moho is a hydration front in the mantle, has recently gained credence upon the discovery of abundant partially serpentinized peridotite on the seafloor and on the walls of fracture zones, such as at Atlantis Bank, an 11-13 My old elevated oceanic core complex massif adjacent to the Atlantis II Transform on the Southwest Indian Ridge. Hole U1473A was drilled on the summit of Atlantis Bank during IODP Expedition 360, 1-2 km away from two previous Ocean Drilling Program (ODP) holes: Hole 735B (drilled during ODP Leg 118 in 1987 and ODP Leg 176 in 1997) and Hole 1105A (drilled during ODP Leg 179 in 1998). A mantle peridotite/gabbro contact has been traced by dredging and diving along the transform wall for 40 km. The contact is located at ∼4200 m depth at the drill sites but shoals considerably 20 km to the south, where it was observed in outcrop at 2563 m depth. Moho reflections have, however, been found at ∼5-6 km beneath Atlantis Bank and <4 km beneath the transform wall, leading to the suggestion that the seismic discontinuity may not represent the crust/mantle boundary but rather an alteration (serpentinization) front. This then raises the interesting possibility that a whole new planetary biosphere may thrive due to methanogenesis associated with serpentinization. The SloMo Project seeks to test these two hypotheses at Atlantis Bank and evaluate carbon sequestration in the lower crust and uppermost mantle. A primary objective of SloMo Leg 1 was to explore the lateral variability of the stratigraphy established in Hole 735B. Comparison of Hole U1473A with Holes 735B and 1105A allows us to demonstrate a continuity of process and complex interplay of magmatic accretion and steady-state detachment faulting over a time period of ∼128 ky. Preliminary assessment indicates that these sections of lower crust are constructed by repeated cycles of intrusion, represented in Hole U1473A by approximately three upwardly differentiated hundreds of meter-scale bodies of olivine gabbro broadly similar to those encountered in the deeper parts of Hole 735B. Specific aims of Expedition 360 focused on gaining an understanding of how magmatism and tectonism interact in accommodating seafloor spreading, how magnetic reversal boundaries are expressed in the lower crust, assessing the role of the lower crust and shallow mantle in the global carbon cycle, and constraining the extent and nature of life at deep levels within the ocean lithosphere.

ASJC Scopus Sachgebiete

Zitieren

International Ocean Discovery Program Expedition 360 Preliminary Report: Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1). / Dick, Henry J.B.; MacLeod, Christopher J.; Blum, Peter et al.
in: International Ocean Discovery Program: Preliminary Reports, Nr. 360, 04.2016, S. 1-50.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Dick, HJB, MacLeod, CJ, Blum, P, Abe, N, Blackman, DK, Bowles, JA, Cheadle, MJ, Cho, K, Ciązela, J, Deans, JR, Edgcomb, VP, Ferrando, C, France, L, Ghosh, B, Ildefonse, BM, Kendrick, MA, Koepke, JH, Leong, JAM, Liu, C, Ma, Q, Morishita, T, Morris, A, Natland, JH, Nozaka, T, Pluemper, O, Sanfilippo, A, Sylvan, JB, Tivey, MA, Tribuzio, R, Viegas, LGF, Kavanagh, L, Burgio, M, Martinez, A, Zhang, J, Skinner, T & McLelland, JS 2016, 'International Ocean Discovery Program Expedition 360 Preliminary Report: Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1)', International Ocean Discovery Program: Preliminary Reports, Nr. 360, S. 1-50. https://doi.org/10.14379/iodp.pr.360.2016
Dick, H. J. B., MacLeod, C. J., Blum, P., Abe, N., Blackman, D. K., Bowles, J. A., Cheadle, M. J., Cho, K., Ciązela, J., Deans, J. R., Edgcomb, V. P., Ferrando, C., France, L., Ghosh, B., Ildefonse, B. M., Kendrick, M. A., Koepke, J. H., Leong, J. A. M., Liu, C., ... McLelland, J. S. (2016). International Ocean Discovery Program Expedition 360 Preliminary Report: Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1). International Ocean Discovery Program: Preliminary Reports, (360), 1-50. https://doi.org/10.14379/iodp.pr.360.2016
Dick HJB, MacLeod CJ, Blum P, Abe N, Blackman DK, Bowles JA et al. International Ocean Discovery Program Expedition 360 Preliminary Report: Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1). International Ocean Discovery Program: Preliminary Reports. 2016 Apr;(360):1-50. doi: 10.14379/iodp.pr.360.2016
Dick, Henry J.B. ; MacLeod, Christopher J. ; Blum, Peter et al. / International Ocean Discovery Program Expedition 360 Preliminary Report : Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1). in: International Ocean Discovery Program: Preliminary Reports. 2016 ; Nr. 360. S. 1-50.
Download
@article{3529d9db6ba149f581f040d3a7a3d8e2,
title = "International Ocean Discovery Program Expedition 360 Preliminary Report: Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1)",
abstract = "International Ocean Discovery Program (IODP) Expedition 360 was the first leg of Phase I of the SloMo (shorthand for {"}The nature of the lower crust and Moho at slower spreading ridges{"}) Project, a multiphase drilling program that proposes to drill through the outermost of the global seismic velocity discontinuities, the Mohorovi{\v c}i{\'c} seismic discontinuity (Moho). The Moho corresponds to a compressional wave velocity increase, typically at ∼7 km beneath the oceans, and has generally been regarded as the boundary between crust and mantle. An alternative model, that the Moho is a hydration front in the mantle, has recently gained credence upon the discovery of abundant partially serpentinized peridotite on the seafloor and on the walls of fracture zones, such as at Atlantis Bank, an 11-13 My old elevated oceanic core complex massif adjacent to the Atlantis II Transform on the Southwest Indian Ridge. Hole U1473A was drilled on the summit of Atlantis Bank during IODP Expedition 360, 1-2 km away from two previous Ocean Drilling Program (ODP) holes: Hole 735B (drilled during ODP Leg 118 in 1987 and ODP Leg 176 in 1997) and Hole 1105A (drilled during ODP Leg 179 in 1998). A mantle peridotite/gabbro contact has been traced by dredging and diving along the transform wall for 40 km. The contact is located at ∼4200 m depth at the drill sites but shoals considerably 20 km to the south, where it was observed in outcrop at 2563 m depth. Moho reflections have, however, been found at ∼5-6 km beneath Atlantis Bank and <4 km beneath the transform wall, leading to the suggestion that the seismic discontinuity may not represent the crust/mantle boundary but rather an alteration (serpentinization) front. This then raises the interesting possibility that a whole new planetary biosphere may thrive due to methanogenesis associated with serpentinization. The SloMo Project seeks to test these two hypotheses at Atlantis Bank and evaluate carbon sequestration in the lower crust and uppermost mantle. A primary objective of SloMo Leg 1 was to explore the lateral variability of the stratigraphy established in Hole 735B. Comparison of Hole U1473A with Holes 735B and 1105A allows us to demonstrate a continuity of process and complex interplay of magmatic accretion and steady-state detachment faulting over a time period of ∼128 ky. Preliminary assessment indicates that these sections of lower crust are constructed by repeated cycles of intrusion, represented in Hole U1473A by approximately three upwardly differentiated hundreds of meter-scale bodies of olivine gabbro broadly similar to those encountered in the deeper parts of Hole 735B. Specific aims of Expedition 360 focused on gaining an understanding of how magmatism and tectonism interact in accommodating seafloor spreading, how magnetic reversal boundaries are expressed in the lower crust, assessing the role of the lower crust and shallow mantle in the global carbon cycle, and constraining the extent and nature of life at deep levels within the ocean lithosphere.",
author = "Dick, {Henry J.B.} and MacLeod, {Christopher J.} and Peter Blum and Natsue Abe and Blackman, {Donna K.} and Bowles, {Julie A.} and Cheadle, {Michael J.} and Kyungo Cho and Jakub Ci{\c a}zela and Deans, {Jeremy R.} and Edgcomb, {Virginia P.} and Carlotta Ferrando and Lyd{\'e}ric France and Biswajit Ghosh and Ildefonse, {Beno{\^i}t M.} and Kendrick, {Mark A.} and Koepke, {Juergen H.} and Leong, {James A.M.} and Chuanzhou Liu and Qiang Ma and Tomoaki Morishita and Antony Morris and Natland, {James H.} and Toshio Nozaka and Oliver Pluemper and Alessio Sanfilippo and Sylvan, {Jason B.} and Tivey, {Maurice A.} and Riccardo Tribuzio and Viegas, {Luis G.F.} and Lucas Kavanagh and Marion Burgio and Alejandra Martinez and Jiansong Zhang and Terry Skinner and McLelland, {James Samuel}",
year = "2016",
month = apr,
doi = "10.14379/iodp.pr.360.2016",
language = "English",
pages = "1--50",
number = "360",

}

Download

TY - JOUR

T1 - International Ocean Discovery Program Expedition 360 Preliminary Report

T2 - Southwest Indian Ridge Lower Crust and Moho the nature of the lower crust and Moho at slower spreading ridges (SloMo Leg 1)

AU - Dick, Henry J.B.

AU - MacLeod, Christopher J.

AU - Blum, Peter

AU - Abe, Natsue

AU - Blackman, Donna K.

AU - Bowles, Julie A.

AU - Cheadle, Michael J.

AU - Cho, Kyungo

AU - Ciązela, Jakub

AU - Deans, Jeremy R.

AU - Edgcomb, Virginia P.

AU - Ferrando, Carlotta

AU - France, Lydéric

AU - Ghosh, Biswajit

AU - Ildefonse, Benoît M.

AU - Kendrick, Mark A.

AU - Koepke, Juergen H.

AU - Leong, James A.M.

AU - Liu, Chuanzhou

AU - Ma, Qiang

AU - Morishita, Tomoaki

AU - Morris, Antony

AU - Natland, James H.

AU - Nozaka, Toshio

AU - Pluemper, Oliver

AU - Sanfilippo, Alessio

AU - Sylvan, Jason B.

AU - Tivey, Maurice A.

AU - Tribuzio, Riccardo

AU - Viegas, Luis G.F.

AU - Kavanagh, Lucas

AU - Burgio, Marion

AU - Martinez, Alejandra

AU - Zhang, Jiansong

AU - Skinner, Terry

AU - McLelland, James Samuel

PY - 2016/4

Y1 - 2016/4

N2 - International Ocean Discovery Program (IODP) Expedition 360 was the first leg of Phase I of the SloMo (shorthand for "The nature of the lower crust and Moho at slower spreading ridges") Project, a multiphase drilling program that proposes to drill through the outermost of the global seismic velocity discontinuities, the Mohorovičić seismic discontinuity (Moho). The Moho corresponds to a compressional wave velocity increase, typically at ∼7 km beneath the oceans, and has generally been regarded as the boundary between crust and mantle. An alternative model, that the Moho is a hydration front in the mantle, has recently gained credence upon the discovery of abundant partially serpentinized peridotite on the seafloor and on the walls of fracture zones, such as at Atlantis Bank, an 11-13 My old elevated oceanic core complex massif adjacent to the Atlantis II Transform on the Southwest Indian Ridge. Hole U1473A was drilled on the summit of Atlantis Bank during IODP Expedition 360, 1-2 km away from two previous Ocean Drilling Program (ODP) holes: Hole 735B (drilled during ODP Leg 118 in 1987 and ODP Leg 176 in 1997) and Hole 1105A (drilled during ODP Leg 179 in 1998). A mantle peridotite/gabbro contact has been traced by dredging and diving along the transform wall for 40 km. The contact is located at ∼4200 m depth at the drill sites but shoals considerably 20 km to the south, where it was observed in outcrop at 2563 m depth. Moho reflections have, however, been found at ∼5-6 km beneath Atlantis Bank and <4 km beneath the transform wall, leading to the suggestion that the seismic discontinuity may not represent the crust/mantle boundary but rather an alteration (serpentinization) front. This then raises the interesting possibility that a whole new planetary biosphere may thrive due to methanogenesis associated with serpentinization. The SloMo Project seeks to test these two hypotheses at Atlantis Bank and evaluate carbon sequestration in the lower crust and uppermost mantle. A primary objective of SloMo Leg 1 was to explore the lateral variability of the stratigraphy established in Hole 735B. Comparison of Hole U1473A with Holes 735B and 1105A allows us to demonstrate a continuity of process and complex interplay of magmatic accretion and steady-state detachment faulting over a time period of ∼128 ky. Preliminary assessment indicates that these sections of lower crust are constructed by repeated cycles of intrusion, represented in Hole U1473A by approximately three upwardly differentiated hundreds of meter-scale bodies of olivine gabbro broadly similar to those encountered in the deeper parts of Hole 735B. Specific aims of Expedition 360 focused on gaining an understanding of how magmatism and tectonism interact in accommodating seafloor spreading, how magnetic reversal boundaries are expressed in the lower crust, assessing the role of the lower crust and shallow mantle in the global carbon cycle, and constraining the extent and nature of life at deep levels within the ocean lithosphere.

AB - International Ocean Discovery Program (IODP) Expedition 360 was the first leg of Phase I of the SloMo (shorthand for "The nature of the lower crust and Moho at slower spreading ridges") Project, a multiphase drilling program that proposes to drill through the outermost of the global seismic velocity discontinuities, the Mohorovičić seismic discontinuity (Moho). The Moho corresponds to a compressional wave velocity increase, typically at ∼7 km beneath the oceans, and has generally been regarded as the boundary between crust and mantle. An alternative model, that the Moho is a hydration front in the mantle, has recently gained credence upon the discovery of abundant partially serpentinized peridotite on the seafloor and on the walls of fracture zones, such as at Atlantis Bank, an 11-13 My old elevated oceanic core complex massif adjacent to the Atlantis II Transform on the Southwest Indian Ridge. Hole U1473A was drilled on the summit of Atlantis Bank during IODP Expedition 360, 1-2 km away from two previous Ocean Drilling Program (ODP) holes: Hole 735B (drilled during ODP Leg 118 in 1987 and ODP Leg 176 in 1997) and Hole 1105A (drilled during ODP Leg 179 in 1998). A mantle peridotite/gabbro contact has been traced by dredging and diving along the transform wall for 40 km. The contact is located at ∼4200 m depth at the drill sites but shoals considerably 20 km to the south, where it was observed in outcrop at 2563 m depth. Moho reflections have, however, been found at ∼5-6 km beneath Atlantis Bank and <4 km beneath the transform wall, leading to the suggestion that the seismic discontinuity may not represent the crust/mantle boundary but rather an alteration (serpentinization) front. This then raises the interesting possibility that a whole new planetary biosphere may thrive due to methanogenesis associated with serpentinization. The SloMo Project seeks to test these two hypotheses at Atlantis Bank and evaluate carbon sequestration in the lower crust and uppermost mantle. A primary objective of SloMo Leg 1 was to explore the lateral variability of the stratigraphy established in Hole 735B. Comparison of Hole U1473A with Holes 735B and 1105A allows us to demonstrate a continuity of process and complex interplay of magmatic accretion and steady-state detachment faulting over a time period of ∼128 ky. Preliminary assessment indicates that these sections of lower crust are constructed by repeated cycles of intrusion, represented in Hole U1473A by approximately three upwardly differentiated hundreds of meter-scale bodies of olivine gabbro broadly similar to those encountered in the deeper parts of Hole 735B. Specific aims of Expedition 360 focused on gaining an understanding of how magmatism and tectonism interact in accommodating seafloor spreading, how magnetic reversal boundaries are expressed in the lower crust, assessing the role of the lower crust and shallow mantle in the global carbon cycle, and constraining the extent and nature of life at deep levels within the ocean lithosphere.

UR - http://www.scopus.com/inward/record.url?scp=84964645100&partnerID=8YFLogxK

U2 - 10.14379/iodp.pr.360.2016

DO - 10.14379/iodp.pr.360.2016

M3 - Article

AN - SCOPUS:84964645100

SP - 1

EP - 50

JO - International Ocean Discovery Program: Preliminary Reports

JF - International Ocean Discovery Program: Preliminary Reports

IS - 360

ER -