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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D

Canales J.P, Carbotte S.M, Nedimović M.R, Carton H.. 2017. Dry Juan de Fuca slab revealed by quantification of water entering Cascadia subduction zone. Nature Geoscience. 10:864–870.

Brandl CC, Worthington LL, M. Magnani B, Shillington DJ, Luckie TW. 2023. Discontinuous Igneous Addition Along the Eastern North American Margin Beneath the East Coast Magnetic Anomaly. Journal of Geophysical Research: Solid Earth. 128(8):e2023JB026459.

Tian Y, Ritzwoller MH. 2015. Directionality of ambient noise on the Juan de Fuca plate: implications for source locations of the primary and secondary microseisms. Geophysical Journal International. 201:429–443.

Stachnik J.C, Sheehan A.F, Zietlow D.W, Yang Z., Collins J., Ferris A.. 2012. Determination of New Zealand Ocean Bottom Seismometer Orientation via Rayleigh-Wave Polarization. Seismological Research Letters. 83:704–713.

Eilon ZC, Forsyth DW. 2020. Depth-Dependent Azimuthal Anisotropy Beneath the Juan de Fuca Plate System. Journal of Geophysical Research: Solid Earth. 125:e2020JB019477.

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.

Anderson EC, Parnell-Turner R, Sohn RA, Fan W. 2025. Deformation on Rainbow Massif, Mid-Atlantic Ridge, Illuminated With Microearthquakes Detected by Machine Learning. Geophysical Research Letters. 52:e2024GL111285.

Tréhu AM, Davenport K, Kenyon CB, Carbotte SM, Nábělek JL, Toomey DR, Wilcock WSD. 2023. Deformation of the Juan de Fuca Plate Beneath the Central Cascadia Continental Margin (44°-45°N) in Response to an Upper Plate Load. Earth Science, Systems and Society. 3:10085.

Stephen RA, S. Bolmer T, Udovydchenkov IA, Worcester PF, Dzieciuch MA, Andrew RK, Mercer JA, Colosi JA, Howe BM. 2013. Deep seafloor arrivals in long range ocean acoustic propagation. The Journal of the Acoustical Society of America. 134:3307–3317.

Stephen RA, S. Bolmer T, Dzieciuch MA, Worcester PF, Andrew RK, Buck LJ, Mercer JA, Colosi JA, Howe BM. 2009. Deep seafloor arrivals: An unexplained set of arrivals in long-range ocean acoustic propagation. The Journal of the Acoustical Society of America. 126:599–606.

Xi Z, S Wei S, Zhu W, Beroza GC, Jie Y, Saloor N. 2024. Deep Learning for Deep Earthquakes: Insights from OBS Observations of the Tonga Subduction Zone. Geophysical Journal International. 238(2):1073–1088.

Van Avendonk H.JA, Kuo-Chen H., McIntosh K.D, Lavier L.L, Okaya D.A, Wu F.T, Wang C.Y, Lee C.S, Liu C.S. 2014. Deep crustal structure of an arc-continent collision: Constraints from seismic traveltimes in central Taiwan and the Philippine Sea. Journal of Geophysical Research: Solid Earth. 119:8397–8416.

Wamba MD, Simons FJ, Irving JCE. 2025. Data-space cross-validation of mantle structure in global tomographic models underneath the Pacific Ocean. Geophysical Journal International. 241:241–259.

C

Rathnayaka S, Gao H. 2017. Crustal-Scale Seismic Structure From Trench to Forearc in the Cascadia Subduction Zone. Journal of Geophysical Research: Solid Earth. 122:7311–7328.

Eakin DH, McIntosh KD, Van Avendonk H.JA, Lavier L, Lester R, Liu C-S, Lee C-S. 2014. Crustal-scale seismic profiles across the Manila subduction zone: The transition from intraoceanic subduction to incipient collision. Journal of Geophysical Research: Solid Earth. 119:1–17.

R. Holmes C, Tolstoy M, Cochran JR, Floyd JS. 2008. Crustal thickness variations along the Southeast Indian Ridge (100°–116°E) from 2-D body wave tomography. Geochemistry, Geophysics, Geosystems. 9

J. Canales P, Sohn RA, deMartin BJ. 2007. Crustal structure of the Trans-Atlantic Geotraverse (TAG) segment (Mid-Atlantic Ridge, 26°10′N): Implications for the nature of hydrothermal circulation and detachment faulting at slow spreading ridges. Geochemistry, Geophysics, Geosystems. 8

Christeson GL, Mann P, Escalona A, Aitken TJ. 2008. Crustal structure of the Caribbean–northeastern South America arc-continent collision zone. Journal of Geophysical Research: Solid Earth. 113

Lynner C, Porritt RW. 2017. Crustal structure across the eastern North American margin from ambient noise tomography. Geophysical Research Letters. 44:6651–6657.

Dunn RA, Martinez F, Conder JA. 2013. Crustal construction and magma chamber properties along the Eastern Lau Spreading Center. Earth and Planetary Science Letters. 371-372:112–124.

Gouédard P, Seher T, McGuire JJ, Collins JA, van der Hilst RD. 2014. Correction of Ocean‐Bottom Seismometer Instrumental Clock Errors Using Ambient Seismic Noise. Bulletin of the Seismological Society of America. 104:1276–1288.

Dunn RA, Martinez F. 2011. Contrasting crustal production and rapid mantle transitions beneath back-arc ridges. Nature. 469:198–202.

Iwasaki Y, Mochizuki K, Ishise M, Todd EK, Schwartz SY, Zal H, Savage MK, Henrys S, Sheehan AF, Ito Y et al.. 2022. Continuous Tremor Activity With Stable Polarization Direction Following the 2014 Large Slow Slip Event in the Hikurangi Subduction Margin Offshore New Zealand. Journal of Geophysical Research: Solid Earth. 127:e2021JB022161.

Xu F, Lu S, Cai C, Chen H, Dong S. 2023. Constraints on the structure of the oceanic crust of the Tamu Massif by teleseismic P-wave coda autocorrelation. Frontiers in Earth Science. 11

Gong J, McGuire JJ. 2021. Constraints on the Geometry of the Subducted Gorda Plate From Converted Phases Generated by Local Earthquakes. Journal of Geophysical Research: Solid Earth. 126:e2020JB019962.

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