Arabian Sea Monsoon: Deep sea drilling in the Arabian Sea: Constraining tectonic-monsoon interactions in South Asia

Research output: Contribution to journalArticlepeer-review

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Arabian Sea Monsoon : Deep sea drilling in the Arabian Sea: Constraining tectonic-monsoon interactions in South Asia. / Pandey, Dhananjai K.; Clift, Peter D.; Kulhanek, Denise K.; Andò, Sergio; Bendle, James A.P.; Bratenkov, Sophia; Griffith, Elizabeth M.; Gurumurthy, Gundiga P.; Hahn, Annette; Iwai, Masao; Khim, Boo Keun; Kumar, Anil; Kumar, A. Ganesh; Liddy, Hannah M.; Lu, Huayu; Lyle, Mitchell W.; Mishra, Ravi; Radhakrishna, Tallavajhala; Routledge, Claire M.; Saraswat, Rajeev; Saxena, Rakesh; Scardia, Giancarlo; Sharma, Girish K.; Singh, Arun D.; Steinke, Stephan; Suzuki, Kenta; Tauxe, Lisa; Tiwari, Manish; Xu, Zhaokai; Yu, Zhaojie.

In: Integrated Ocean Drilling Program: Preliminary Reports, No. 355, 01.07.2015, p. 6-46.

Research output: Contribution to journalArticlepeer-review

Harvard

Pandey, DK, Clift, PD, Kulhanek, DK, Andò, S, Bendle, JAP, Bratenkov, S, Griffith, EM, Gurumurthy, GP, Hahn, A, Iwai, M, Khim, BK, Kumar, A, Kumar, AG, Liddy, HM, Lu, H, Lyle, MW, Mishra, R, Radhakrishna, T, Routledge, CM, Saraswat, R, Saxena, R, Scardia, G, Sharma, GK, Singh, AD, Steinke, S, Suzuki, K, Tauxe, L, Tiwari, M, Xu, Z & Yu, Z 2015, 'Arabian Sea Monsoon: Deep sea drilling in the Arabian Sea: Constraining tectonic-monsoon interactions in South Asia', Integrated Ocean Drilling Program: Preliminary Reports, no. 355, pp. 6-46.

APA

Pandey, D. K., Clift, P. D., Kulhanek, D. K., Andò, S., Bendle, J. A. P., Bratenkov, S., Griffith, E. M., Gurumurthy, G. P., Hahn, A., Iwai, M., Khim, B. K., Kumar, A., Kumar, A. G., Liddy, H. M., Lu, H., Lyle, M. W., Mishra, R., Radhakrishna, T., Routledge, C. M., ... Yu, Z. (2015). Arabian Sea Monsoon: Deep sea drilling in the Arabian Sea: Constraining tectonic-monsoon interactions in South Asia. Integrated Ocean Drilling Program: Preliminary Reports, (355), 6-46.

Vancouver

Author

Pandey, Dhananjai K. ; Clift, Peter D. ; Kulhanek, Denise K. ; Andò, Sergio ; Bendle, James A.P. ; Bratenkov, Sophia ; Griffith, Elizabeth M. ; Gurumurthy, Gundiga P. ; Hahn, Annette ; Iwai, Masao ; Khim, Boo Keun ; Kumar, Anil ; Kumar, A. Ganesh ; Liddy, Hannah M. ; Lu, Huayu ; Lyle, Mitchell W. ; Mishra, Ravi ; Radhakrishna, Tallavajhala ; Routledge, Claire M. ; Saraswat, Rajeev ; Saxena, Rakesh ; Scardia, Giancarlo ; Sharma, Girish K. ; Singh, Arun D. ; Steinke, Stephan ; Suzuki, Kenta ; Tauxe, Lisa ; Tiwari, Manish ; Xu, Zhaokai ; Yu, Zhaojie. / Arabian Sea Monsoon : Deep sea drilling in the Arabian Sea: Constraining tectonic-monsoon interactions in South Asia. In: Integrated Ocean Drilling Program: Preliminary Reports. 2015 ; No. 355. pp. 6-46.

Bibtex

@article{e0096bfba489449eb5a6cfc7b69d12ff,
title = "Arabian Sea Monsoon: Deep sea drilling in the Arabian Sea: Constraining tectonic-monsoon interactions in South Asia",
abstract = "The Arabian Sea in the northern Indian Ocean pre-serves regional sedimentary records of rifting, tectonic subsidence, and paleoceanographic history, and also provides archives of long-term erosion of the Himalaya since the start of collision between In?dia and Eurasia. Investigations reveal that drilling in this region can provide erosion records through analyses of the sediment cores, along with providing age control for the regional seismic stratigraphy. It is only by quantifying the volume of sedi?ment deposited in the fan that researchers can mass balance the volume of bedrock eroded from the mountains, constrained by thermochronology, with the volume of eroded rock deposited in the offshore and in the foreland basin.",
author = "Pandey, {Dhananjai K.} and Clift, {Peter D.} and Kulhanek, {Denise K.} and Sergio And{\`o} and Bendle, {James A.P.} and Sophia Bratenkov and Griffith, {Elizabeth M.} and Gurumurthy, {Gundiga P.} and Annette Hahn and Masao Iwai and Khim, {Boo Keun} and Anil Kumar and Kumar, {A. Ganesh} and Liddy, {Hannah M.} and Huayu Lu and Lyle, {Mitchell W.} and Ravi Mishra and Tallavajhala Radhakrishna and Routledge, {Claire M.} and Rajeev Saraswat and Rakesh Saxena and Giancarlo Scardia and Sharma, {Girish K.} and Singh, {Arun D.} and Stephan Steinke and Kenta Suzuki and Lisa Tauxe and Manish Tiwari and Zhaokai Xu and Zhaojie Yu",
year = "2015",
month = jul,
day = "1",
language = "English",
pages = "6--46",
journal = "Integrated Ocean Drilling Program: Preliminary Reports",
issn = "1932-9423",
publisher = "IODP-MI",
number = "355",

}

RIS

TY - JOUR

T1 - Arabian Sea Monsoon

T2 - Deep sea drilling in the Arabian Sea: Constraining tectonic-monsoon interactions in South Asia

AU - Pandey, Dhananjai K.

AU - Clift, Peter D.

AU - Kulhanek, Denise K.

AU - Andò, Sergio

AU - Bendle, James A.P.

AU - Bratenkov, Sophia

AU - Griffith, Elizabeth M.

AU - Gurumurthy, Gundiga P.

AU - Hahn, Annette

AU - Iwai, Masao

AU - Khim, Boo Keun

AU - Kumar, Anil

AU - Kumar, A. Ganesh

AU - Liddy, Hannah M.

AU - Lu, Huayu

AU - Lyle, Mitchell W.

AU - Mishra, Ravi

AU - Radhakrishna, Tallavajhala

AU - Routledge, Claire M.

AU - Saraswat, Rajeev

AU - Saxena, Rakesh

AU - Scardia, Giancarlo

AU - Sharma, Girish K.

AU - Singh, Arun D.

AU - Steinke, Stephan

AU - Suzuki, Kenta

AU - Tauxe, Lisa

AU - Tiwari, Manish

AU - Xu, Zhaokai

AU - Yu, Zhaojie

PY - 2015/7/1

Y1 - 2015/7/1

N2 - The Arabian Sea in the northern Indian Ocean pre-serves regional sedimentary records of rifting, tectonic subsidence, and paleoceanographic history, and also provides archives of long-term erosion of the Himalaya since the start of collision between In?dia and Eurasia. Investigations reveal that drilling in this region can provide erosion records through analyses of the sediment cores, along with providing age control for the regional seismic stratigraphy. It is only by quantifying the volume of sedi?ment deposited in the fan that researchers can mass balance the volume of bedrock eroded from the mountains, constrained by thermochronology, with the volume of eroded rock deposited in the offshore and in the foreland basin.

AB - The Arabian Sea in the northern Indian Ocean pre-serves regional sedimentary records of rifting, tectonic subsidence, and paleoceanographic history, and also provides archives of long-term erosion of the Himalaya since the start of collision between In?dia and Eurasia. Investigations reveal that drilling in this region can provide erosion records through analyses of the sediment cores, along with providing age control for the regional seismic stratigraphy. It is only by quantifying the volume of sedi?ment deposited in the fan that researchers can mass balance the volume of bedrock eroded from the mountains, constrained by thermochronology, with the volume of eroded rock deposited in the offshore and in the foreland basin.

UR - http://www.scopus.com/inward/record.url?scp=84938904443&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:84938904443

SP - 6

EP - 46

JO - Integrated Ocean Drilling Program: Preliminary Reports

JF - Integrated Ocean Drilling Program: Preliminary Reports

SN - 1932-9423

IS - 355

ER -