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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] Title Type Year

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

D

A. K. Doran and Laske, G., “Seismic Structure of Marine Sediments and Upper Oceanic Crust Surrounding Hawaii”, Journal of Geophysical Research: Solid Earth, vol. 124, pp. 2038–2056, 2019.

Ak. Doran, Rapa, M., Laske, G., Babcock, J., and McPeak, S., “Calibration of Differential Pressure Gauges Through In Situ Testing”, Earth and Space Science, vol. 6, pp. 2663–2670, 2019.

Y. Dobashi and Inazu, D., “Improving Detectability of Seafloor Deformation From Bottom Pressure Observations Using Numerical Ocean Models”, Frontiers in Earth Science, vol. 8, 2021.

H. Deng, An, C., Cai, C., and Ren, H., “Theoretical Solution and Applications of Ocean Bottom Pressure Induced by Seismic Waves at High Frequencies”, Geophysical Research Letters, vol. 49, p. e2021GL096952, 2022.

B. J. deMartin, Sohn, R. A., Canales, J. Pablo, and Humphris, S. E., “Kinematics and geometry of active detachment faulting beneath the Trans-Atlantic Geotraverse (TAG) hydrothermal field on the Mid-Atlantic Ridge”, Geology, vol. 35, pp. 711–714, 2007.

C

G. F. Cooper, Macpherson, C. G., Blundy, J. D., Maunder, B., Allen, R. W., Goes, S., Collier, J. S., Bie, L., Harmon, N., Hicks, S. P., Iveson, A. A., Prytulak, J., Rietbrock, A., Rychert, C. A., and Davidson, J. P., “Variable water input controls evolution of the Lesser Antilles volcanic arc”, Nature, vol. 582, pp. 525–529, 2020.

J. A. Collins, Wolfe, C. J., and Laske, G., “Shear wave splitting at the Hawaiian hot spot from the PLUME land and ocean bottom seismometer deployments”, Geochemistry, Geophysics, Geosystems, vol. 13, 2012.

J. A. Collins and Molnar, P., “Pn anisotropy beneath the South Island of New Zealand and implications for distributed deformation in continental lithosphere”, Journal of Geophysical Research: Solid Earth, vol. 119, pp. 7745–7767, 2014.

J. A. Collins, Smith, D. K., and McGuire, J. J., “Seismicity of the Atlantis Massif detachment fault, 30°N at the Mid-Atlantic Ridge”, Geochemistry, Geophysics, Geosystems, vol. 13, 2012.

S. A. Clark, Levander, A., Magnani, M. B., and Zelt, C. A., “Negligible convergence and lithospheric tearing along the Caribbean–South American plate boundary at 64°W”, Tectonics, vol. 27, 2008.

S. A. Clark, Sobiesiak, M., Zelt, C. A., Magnani, M. B., Miller, M. S., Bezada, M. J., and Levander, A., “Identification and tectonic implications of a tear in the South American plate at the southern end of the Lesser Antilles”, Geochemistry, Geophysics, Geosystems, vol. 9, 2008.

S. A. Clark, Zelt, C. A., Magnani, M. B., and Levander, A., “Characterizing the Caribbean–South American plate boundary at 64°W using wide-angle seismic data”, Journal of Geophysical Research: Solid Earth, vol. 113, 2008.

G. L. Christeson, Mann, P., Escalona, A., and Aitken, T. J., “Crustal structure of the Caribbean–northeastern South America arc-continent collision zone”, Journal of Geophysical Research: Solid Earth, vol. 113, 2008.

G. L. Christeson, Gulick, S. P. S., Walton, M. A. L., and Barth, G. A., “Seismic evidence for magmatic underplating along the Kodiak-Bowie Seamount Chain, Gulf of Alaska”, Tectonophysics, vol. 845, p. 229639, 2022.

G. L. Christeson, Reece, R. S., Kardell, D. A., Estep, J. D., Fedotova, A., and Goff, J. A., “South Atlantic Transect: Variations in Oceanic Crustal Structure at 31°S”, Geochemistry Geophysics Geosystems, vol. 21, 2020.

K. Chrapkiewicz, Paulatto, M., Heath, B. A., Hooft, E. E. E., Nomikou, P., Papazachos, C. B., Schmid, F., Toomey, D. R., Warner, M. R., and Morgan, J. V., “Magma Chamber Detected Beneath an Arc Volcano With Full-Waveform Inversion of Active-Source Seismic Data”, Geochemistry, Geophysics, Geosystems, vol. 23, p. e2022GC010475, 2022.

C. Cheng, Allen, R. M., Porritt, R. W., and Ballmer, M. D., “Seismic Constraints on a Double-Layered Asymmetric Whole-Mantle Plume Beneath Hawai‘i”, 2015, pp. 19–34.

Z. Chen, Gerstoft, P., and Bromirski, P. D., “Microseism source direction from noise cross-correlation”, Geophysical Journal International, vol. 205, pp. 810–818, 2016.

X. Chen and McGuire, J. J., “Measuring earthquake source parameters in the Mendocino triple junction region using a dense OBS array: Implications for fault strength variations”, Earth and Planetary Science Letters, vol. 453, pp. 276–287, 2016.

K. Chaudhuri and Ghosh, A., “Widespread Very Low Frequency Earthquakes (VLFEs) Activity Offshore Cascadia”, Geophysical Research Letters, vol. 49, p. e2022GL097962, 2022.

A. Chakravorty, “Small-scale factors influence mantle flow under the seafloor”, Earth Magazine, vol. November, 2016.

C. Cattania, McGuire, J. J., and Collins, J. A., “Dynamic triggering and earthquake swarms on East Pacific Rise transform faults”, Geophysical Research Letters, vol. 44, pp. 702–710, 2017.

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

P. J. Canales, Dunn, R. A., Arai, R., and Sohn, R. A., “Seismic imaging of magma sills beneath an ultramafic-hosted hydrothermal system”, Geology, vol. 45, pp. 451–454, 2017.

P. J. Canales, Sohn, R. A., and deMartin, B. J., “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, vol. 8, 2007.

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