obsic

Exceptional scientific results are OBSIC's ultimate goal. This page (below) lists citations of published results that were aided or enabled through the use of the OBSIP/OBSIC facility.
As stated in the OBSIC Instrument Use Policies and Procedures, all users of OBSIC Instrumentation are requested to cite the use and support of the OBSIC facility, by incorporating the following acknowledgement in any publications or reports resulting from the use of OBSIC instruments:
“Data used in this research were provided by instruments from the Ocean Bottom Seismic Instrument Center (https://obsic.whoi.edu), which is funded by the National Science Foundation (https://www.nsf.gov). OBSIC data are archived at the IRIS Data Management Center (http://www.iris.edu)."
Please complete the OBSIC Submit a Publication Form with any publications or reports related to your experiment.

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L

Leahy GM, Collins JA, Wolfe CJ, Laske G, Solomon SC. 2010. Underplating of the Hawaiian Swell: evidence from teleseismic receiver functions. Geophysical Journal International. 183:313–329.

Le BManh, Yang T, Morgan JP. 2022. Seismic Constraints on Crustal and Uppermost Mantle Structure Beneath the Hawaiian Swell: Implications for Plume-Lithosphere Interactions. Journal of Geophysical Research: Solid Earth. 127:e2021JB023822.

Lata C, Dunn RA. 2020. Uppermost crustal structure across the eastern Lau spreading center from P-to-S converted waves. Marine Geophysical Research. 41

Laske G. 2021. Observations of Earth’s Normal Modes on Broadband Ocean Bottom Seismometers. Frontiers in Earth Science. 9

Laske G, Markee A, Orcutt JA, Wolfe CJ, Collins JA, Solomon SC, Detrick RS, Bercovici D, Hauri EH. 2011. Asymmetric shallow mantle structure beneath the Hawaiian Swell-evidence from Rayleigh waves recorded by the PLUME network. Geophysical Journal International. 187:1725–1742.

K

Kuo-Chen H, Wu FT, Roecker SW. 2012. Three-dimensional P velocity structures of the lithosphere beneath Taiwan from the analysis of TAIGER and related seismic data sets. Journal of Geophysical Research: Solid Earth. 117

Kuna VM, Nábělek JL, Braunmiller J. 2019. Mode of slip and crust–mantle interaction at oceanic transform faults. Nature Geoscience. 12:138–142.

Kuna VM, Nábělek JL. 2021. Seismic crustal imaging using fin whale songs. Science. 371:731–735.

Krischer L, Fichtner A, Boehm C, Igel H. 2018. Automated Large-Scale Full Seismic Waveform Inversion for North America and the North Atlantic. Journal of Geophysical Research: Solid Earth. 123:5902–5928.

Konter J.G, Staudigel H., Hart S.R, Shearer P.M. 2004. Seafloor seismic monitoring of an active submarine volcano: Local seismicity at Vailulu'u Seamount, Samoa. Geochemistry, Geophysics, Geosystems. 5

Kleckner JK, Withers KB, Thompson EM, Rekoske JM, Wolin E, Moschetti MP. 2021. Automated Detection of Clipping in Broadband Earthquake Records. Seismological Research Letters. 93:880–896.

Kim E, Toomey DR, Hooft EEE, Wilcock WSD, Weekly RT, Lee S‐M, Kim YHee. 2018. Upper crustal Vp / Vs ratios at the Endeavour segment, Juan de Fuca Ridge, from joint inversion of P and S travel times: Implications for hydrothermal circulation. Geochemistry, Geophysics, Geosystems. :2018GC007921.

Kim HJ, Kawakatsu H, Akuhara T, Takeuchi N, Isse T, Shiobara H, Sugioka H, Utada H, Kim YH, Lee S-M. 2024. Application of the reverberation waveform inversion for the high-resolution sediment layer structure in the Pacific. Geophysical Journal International. 240:1331–1344.

Kim E, Toomey DR, Hooft EEE, Wilcock WSD, Weekly RT, Lee S‐M, Kim YHee. 2018. Upper crustal Vp / Vs ratios at the Endeavour segment, Juan de Fuca Ridge, from joint inversion of P and S travel times: Implications for hydrothermal circulation. Geochemistry, Geophysics, Geosystems. :2018GC007921.

Kawakatsu H, Utada H. 2017. Seismic and Electrical Signatures of the Lithosphere–Asthenosphere System of the Normal Oceanic Mantle. Annual Review of Earth and Planetary Sciences. 45:139–167.

Karalliyadda S.C, Savage M.K, Sheehan A., Collins J., Zietlow D., Shelley A.. 2015. S-wave splitting in the offshore South Island, New Zealand: Insights into plate-boundary deformation. Geochemistry, Geophysics, Geosystems. 16:2829–2847.

J

Jones N. 2014. Global seismic network takes to the seas. Nature. 507:151–151.

Johnson CW, Bürgmann R. 2016. Delayed dynamic triggering: Local seismicity leading up to three remote M ≥ 6 aftershocks of the 11 April 2012 M8.6 Indian Ocean earthquake. Journal of Geophysical Research: Solid Earth. 121:134–151.

H. Johnson P, Gomberg JS, Hautala SL, Salmi MS. 2017. Sediment gravity flows triggered by remotely generated earthquake waves. Journal of Geophysical Research: Solid Earth. 122:4584–4600.

Jian H, J. Canales P, Dunn R, Nedimović MR. 2024. Hydrothermal flow and serpentinization in oceanic core complexes controlled by mafic intrusions. Nature Geoscience. :1–6.

Jézéquel Y, Cones SF, Jensen FH, Brewer H, Collins J, T. Mooney A. 2023. Impacts of Substrate-Borne Vibrations from Pile Driving in a Benthic Marine Invertebrate. The Effects of Noise on Aquatic Life : Principles and Practical Considerations. :1–7.

Jézéquel Y, Cones S, Jensen FH, Brewer H, Collins J, T. Mooney A. 2022. Pile driving repeatedly impacts the giant scallop (Placopecten magellanicus). Scientific Reports. 12:15380.

Janiszewski HAnne. 2018. New Insights on the Structure of the Cascadia Subduction Zone from Amphibious Seismic Data.

Janiszewski HA, Abers GA. 2015. Imaging the Plate Interface in the Cascadia Seismogenic Zone: New Constraints from Offshore Receiver Functions. Seismological Research Letters. 86:1261–1269.

Janiszewski HA, Gaherty JB, Abers GA, Gao H, Eilon ZC. 2019. Amphibious surface-wave phase-velocity measurements of the Cascadia subduction zone. Geophysical Journal International. 217:1929–1948.

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