Publications

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[36] Yamamoto, Y. H. Fukami, W. Taniguchi, P.C. Lippert, 2018. Data report: Updated magnetostratigraphy of IODP Sites 1403, U1408, U1409, and U1410. In Proceedings of the Integrated Ocean Drilling Program, Norris, R.D., P.A. Wilson, P. Blum, and the Expedition 342 Scientists (Eds). Volume 342, doi:10.2204/iodp.proc.342.207.2018.


[35] van Hinsbergen, D.J.J., P.C. Lippert, S.H. Li, W.T. Huang^, E.L. Advokaat, and W. Spakman, 2018. Reconstructing Greater India: Paleogeographic, kinematic, and geodynamic perspectives. Tectonophysics, available online 22 April 2018, doi: 10.1016/j.tecto.2018.04.006.


[34] Rivera, T.A., R. Furlong**, J. Vincent**, S. Gardiner, B. Jicha, M. Schmitz, and P.C. Lippert, 2018. Volcanism at 1.45 Ma within the Yellowstone volcanic field, United States. Journal of Volcanology & Geothermal Research, 357, 224-238, doi:10.1016/j.jvolgeores.2018.04.030.


[33] Zhang, R., D.B. Jiang, G. Ramstein, Z.S. Zhang, P.C. Lippert, and E.T. Yu, 2018. Changes in Tibetan plateau latitude as an important factor for understanding East Asian climate since the Eocene: A modeling study. Earth & Planetary Science Letters, 484, 295-308, doi:10.1016/j.epsl.2017.12.034.


[32] Egger, L.M., A. Bahr, O. Friedrich, P.A. Wilson, R.D. Norris, T.E. van Peer*, P.C. Lippert, D. Liebrand, and J. Pross, 2018. Sea-level and surface-water change in the western North Atlantic across the Oligocene-Miocene Transition: A palynological perspective from IODP Site U1406 (Newfoundland margin). Marine Micropaleontology, 139, 57-71, doi:10.1016/j.marmicro.2017.11.003.


[31] van Hinsbergen, D.J.J., P.C. Lippert, and W.T. Huang^, 2017. Unfeasible subduction? Nature Geoscience, 10, 878-879, doi:10.1038/s41561-017-0017-0.


[30] van Peer, T.E.*, C. Xuan, P.C. Lippert, D. Liebrand, C. Agnini, and P.A. Wilson, 2017. Extracting a detailed Oligocene to early Miocene magnetostratigraphy from weakly magnetized, dynamic sediment drifts at IODP Site U1406 (Newfoundland margin, northwest Atlantic Ocean). G-Cubed, 18, 3910-3928,, doi:10.1002/2017GC007185.


[29] Rivera, T.A., R. Darata**, P.C. Lippert, B.R. Jicha, and M.D. Schmitz, 2017. The duration of a Yellowstone super-eruption cycle and implications for the age of the Olduvai subchron. Earth and Planetary Science Letters, 479, 377-386, doi:10.106/j.epsl.2017.08.027.


[28] Song, P.P.^, L. Ding, Z.Y. Li, P.C. Lippert, and Y.H. Yue, 2017. An early bird from Gondwana: Paleomagnetism of Lower Permian lavas from northern Qiangtang (Tibet) and the geography of the Paleo-Tethys. Earth and Planetary Science Letters, 475, 119-133, doi:10.1016/j.epsl.2017.07.023.


[27] van Peer, T.E.*, D. Leibrand, C. Xuan, P.C. Lippert, C. Agnini, N. Blum, P. Blum, S.M. Bohaty, P.R. Bown, R. Greenop, W.E.C. Kordesch, D. Leonhardt, O. Freidrich, and P.A. Wilson, 2017. Data report: Revised composite depth scale and splice for IODP Site U1406. In Proceedings of the Integrated Ocean Drilling Program, Norris, R.D., P.A. Wilson, P. Blum, and the Expedition 342 Scientists (Eds). Volume 342, doi:10.2204/iodp.proc.342.202.2017.


[26] Huang, W.T.^, P.C. Lippert, M.J. Jackson, M.J. Dekkers, Y. Zhang, J. Li, Z.J. Guo, P. Kapp, and D.J.J. van Hinsbergen, 2017. Reply to comment by Yi et al., on “remagnetization of the Paleogene Tibetan Himalayan carbonates in the Gamba area: Implications for reconstructing the lower plate in the India-Asia collision.” Journal of Geophysical Research-Solid Earth, 122(7), 4859-4863, doi:10.1002/2017JB014447.


[25] Huang, W.T.^, P.C. Lippert, Y. Zhang, M.J. Jackson, M.J. Dekkers, J. Li, X.M. Hu, B. Zhang, Z.J. Guo, and D.J.J. van Hinsbergen, 2017. Remagnetization of carbonate rocs in southern Tibet: Perspectives from rock magnetic and petrographic investigations. Journal of Geophysical Research-Solid Earth, 122(4), 2434-2456, doi: 10.1002/2017JB013987.

        see also: EOS Research Spotlight:

            Diagnosing cryptic remagnetization in sedimentary rocks.


[24] Huang, W.T.^, P.C. Lippert, M.J. Jackson, M.J. Dekkers, Y. Zhang, J. Li, Z. Guo, P. Kapp, and D.J.J. van Hinsbergen, 2017. Remagnetization of the Paleogene Tibetan Himalayan carbonate rocks in the Gamba area: Implications for reconstructing the lower plate in the India-Asia collision. Journal of Geophysical Research-Solid Earth, 122(2), 808-825, doi:10.1002/2016JB013662.


[23] Egger, L.M., K.K. Sliwinska, T.E. van Peer*, D. Liebrand, P.C. Lippert, O. Friedrich, P.A. Wilson, R.D. Norris, and J. Pross, 2016. Magnetostratigraphically calibrated dinoflagellate cyst bioevents for the uppermost Eocene to lowermost Miocene of the western North Atlantic (IODP Expedition 342, Paleogene Newfoundland sediment drifts). Review of Palaeobotany and Palynology, 234, 159-185, doi:10.1016/j.revpalbo.2016.08.002.


[22] Li, Z.Y., L. Ding, P.C. Lippert, P.P. Song, Y.H. Yue, and D.J.J. van Hinsbergen, 2016. Paleomagnetic constraints on the Mesozoic drift history of the Lhasa terrane (Tibet) from Gondwana to Eurasia. Geology, 44, 727-730, doi:10.1130/G38030.1.


[21] Song, P.P.*, L. Ding, Z.Y. Li, P.C. Lippert, T.S. Yang, X.X. Zhao, J. Fu, and Y. Yue, 2015. Late Triassic paleolatitude of the Qiangtang block: Implications for the closure of the Paleo-Tethys ocean. Earth and Planetary Science Letters, 42, 69-83, doi:10.1016/j.epsl.2015.05.020.


[20] Huang, W.T.*, D.J.J. van Hinsbergen, P.C. Lippert, Guo, Z.J., and G. Dupont-Nivet, 2015. Paleomagnetic tests of tectonic reconstructions of the India-Asia collision zone. Geophysical Research Letters, 42, 2642-2649, doi:10.1002/2015GL063749.


[19] Huang, W.T.*, Dupont-Nivet, P.C. Lippert, D.J.J. van Hinsbergen, M.J. Dekkers, Z.J. Guo, R. Waldrip, M. Ganerød, X.C. Li, and P. Kapp, 2015. What was the Paleogene latitude of the Lhasa terrane? A reassessment of the geochronology and paleomagnetism of Linzizong volcanic rocks (Linzhou Basin, Tibet). Tectonics, 34, 594-622, doi:10.1002/2014TC003787.


[18] Huang, W.T.*, G. Dupont-Nivet, P.C. Lippert, D.J.J. van Hinsbergen, M.J. Dekkers, Z.J. Guo, R. Waldrip*, X.C. Li, X.R. Zhang, D.D. Liu, and P. Kapp, 2015. Can a primary remanence be retrieved from partially remagnetized Eocene volcanic rocks in the Nanmulin Basin (Southern Tibet) to date the India-Asia collision? J. of Geophysical Research, 120, 42-66, doi:10.1002/2014JB011599.


[17] Huang, W.T.*, D.J.J. van Hinsbergen, M.J. Dekkers, E. Garzanti, G. Dupont-Nivet, P.C. Lippert, X.C. Li, M. Maffione, C.G. Langereis, X.M. Hu, Z.J. Guo, and P. Kapp. 2015. Paleolatitudes of the Tibetan Himalaya from primary and secondary magnetizations of Jurassic to Lower Cretaceous sediments. G-Cubed, 16, 77-100, doi:10.1002/2014GC005624.


[16] Lippert, P.C., D.J.J. van Hinsbergen, and G. Dupont-Nivet, 2014. Early Cretaceous to present latitude of the central proto-Tibetan Plateau: A paleomagnetic synthesis with implications for Cenozoic tectonics, paleogeography, and climate of Asia. In Towards an Improved Understanding of Uplift Mechanisms and the Elevation History of the Tibetan Plateau, edited by J.S. Nie, G.D. Hoke, and B.K. Horton, 1-21. Geological Society of America Special Paper 507, doi:10.1130/2014.2507(01).


[15] Norris, R.D., P.A. Wilson, P. Blum, and the Expedition 342 Scientists, 2014. Proceedings of the Integrated Ocean Drilling Program, Leg 342: Tokyo (IODP Management International, Inc.).


[14] Li, Z.Y., L. Ding, P.C. Lippert, and H.H. Wei, 2013. Paleomagnetic constraints on the Cenozoic kinematic evolution of the Pamir plateau from the Western Kunlun Shan foreland. Tectonophysics, 603, 257-271, doi:10.1016/j.tecto.2013.05.040.


[13] Huang, W.T.*, G. Dupont-Nivet, P.C. Lippert, D.J.J. van Hinsbergen, and E. Hallot, 2013. Inclination shallowing in Eocene Linzizong sedimentary rocks from Southern Tibet: Correction, possible causes, and implications for reconstructing the India-Asia collision. Geophys. J. Int., 194, 1390-1411, doi: 10.1093/gji/ggt188.


[12] Expedition 342 Scientists, 2012. Leg 342 Preliminary Report. Integrated Ocean Drilling Program Management Program, Inc. (College Station, TX). 263 pages. doi:10.2204/iodp.pr.342.2012. Available online at: http://publications.iodp.org/preliminary_report/342/


[11] van Hinsbergen, D.J.J., P.C. Lippert, G. Dupont-Nivet, N. McQuarrie, P.V. Doubrovine, W. Spakman , and T.H. Torsvik, 2012c. Reply to Aitchison and Ali: Reconciling Himalayan ophiolite obduction and Asian magmatic arc records with a two-stage India-Asia collision model. Proceedings of the National Academy of Sciences of the United States of America. Published online, doi:10.1073/pnas.1208836109.


[10] van Hinsbergen, D.J.J., P.C. Lippert, G. Dupont-Nivet, P. Kapp, P.G. DeCelles, and T.H. Torsvik, 2012b. Reply to comment by Ali and Aitchison on "Restoration of Cenozoic deformation in Asia, and the size of Greater India." Tectonics, 31, TC4007, doi:10.1029/2012tc003144.


[9] van Hinsbergen, D.J.J., P.C. Lippert, G. Dupont-Nivet, N. McQuarrie, P.V. Doubrovine, W. Spakman, and T.H. Torsvik, 2012a. Greater India Basin Hypothesis and a two-stage Cenozoic collision between India and Asia. Proceedings of the National Academy of Sciences of the United States of America, 109, 7659-7664, doi:10.1073/pnas.1117262109.


[8] Schwartz, H., P.R. Renne, L.E. Morgan, M.M. Wildgoose, P.C. Lippert, S.R. Frost, K. Harvati, F. Schrenk, and C. Saanane, 2012. Geochronology of the Manyara Beds, northern Tanzania: Stratigraphy and new magnetostratigraphy and 40Ar/39Ar ages. Quaternary Geochonology, 7: 48-66, doi: 10.1016/j.quageo.2011.09.002.


[7] van Hinsbergen, D.J.J., P. Kapp, G. Dupont-Nivet, P.C. Lippert, P.G. DeCelles, and T.H. Torsvik, 2011. Restoration of Cenozoic deformation in Asia, and the size of Greater India. Tectonics, 30: TC5003, doi:10.1029/2011TC002908.


[6] Lippert, P.C., X.X. Zhao, R.S. Coe, and C.H. Lo, 2011. Palaeomagnetism and 40Ar/39Ar Geochronology of upper Palaeogene volcanic Rocks from Central Tibet: Implications for the Central Asia inclination anomaly, the palaeolatitude of Tibet, and post-50 Ma shortening within Asia. Geophys. J. Int., 184: 131-161, doi: 10.1111/j.1365-246X.2010.04833.x.


[5] Dupont-Nivet, G., P.C. Lippert, D.J.J. van Hinsbergen, M.J.M. Meijers, and P. Kapp, 2010. Palaeolatitude and age of the Indo-Asia collision: Palaeomagnetic constraints. Geophys. J. Int., 182: 1189-1198, doi:10.1111/j.1365-246X.2010.04697.x.


[4] Wang, C.S., X.X. Zhao, Z.F. Liu, P.C. Lippert, S.A. Graham, R.S. Coe, H.S. Yi, L.D. Zhu, S. Liu, and Y.. Li, 2008. Constraints on the early uplift history of the Tibetan plateau. Proceedings of the National Academy of Sciences of the United States of America, 105, 4987-4992, doi:10.1073/pnas.0703595105.

    see also: UCSC Press Release by Tim Stephens:

        New findings from Tibetan Plateau suggest uplift occurred in stages.


[3] Lippert, P.C., 2008. Big discovery for biogenic magnetite. Proceedings of the National Academy of Sciences of the United States of America, 105, 17595-17596, doi:10.1073/pnas.0809839105.


[2] Lippert, P.C. and J.C. Zachos, 2007. A biogenic origin for anomalous fine-grained magnetic material at the Paleocene-Eocene boundary at Wilson Lake, New Jersey. Paleoceanography, 22, PA4104, doi:10.1029/2007PA001471.

    see also: Dickens, G. R., 2008, The riddle of the clays. Nature Geoscience, 1, p. 86-88.


[1] Zhao, X.X., P. Riisager, M. Antretter, J. Carlut, P.C. Lippert, Q.S. Liu, G. Galbrun, S. Hall, H. Delius, and T. Kanamatsu, 2006. Unraveling the magnetic carriers of igneous cores from the Atlantic, Pacific, and the southern Indian oceans with rock magnetic characterization. Physics of the Earth and Planetary Interiors, 156: 294-238.



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Selected Presentations

^ indicates postdoc; *graduate student; **undergraduate student

with whom I’ve had a direct and significant advisory role


2018

  1. Jackson, M.D., P.C. Lippert, J.M. Marquardt*, M.J. Heap, J.G. Moore, M. Rhodes, T. Weisenberger, and M.T. Gudmundsson. Decebember 2018. Evolving magnetic and material properties of 50-year-old basaltic tuff, SUSTAIN drilling project, Surtsey volcano, Iceland. AGU Fall Meeting, Abstract # not yet assigned. Washington, D.C.


  2. Ran, Z., D.B. Jiang, G. Ramstein, Z.S. Zhang, P.C. Lippert, and E.T. Yu. December 2018. Changes in Tibetan plateau latitude as an important factor for understanding East Asian climate since the Eocene: A modeling study. AGU Fall Meeting, Abstract # not yet assigned. Washington, D.C.


  3. Rivera, T.A., M.D. Schmitz, B.R. Jicha, and P.C. Lippert. November 2018. The Lyle Spring magmatic system of the Yellowstone volcanic field. GSA Annual Meeting, Abstract # not yet assigned. Indianapolis, Indiana.


  4. Beno, C.J., M.A. Chan, T.E. Cerling, P.C. Lippert. November 2018. Aesthetic countertop geology displays for introductory to advanced geoscience classes. GSA Annual Meeting, Abstract # not yet assigned. Indianapolis, Indiana.


  5. Peakcock, H., T. Rivera, G. Rea-Downing*, P.C. Lippert, S. Kirby, B.R. Jicha. November 2018. Revisiting the Quaternary rhyolites of the Mineral Mountains: New 40Ar/39Ar geochronology, paleomagnetic, and geochemical data. GSA Annual Meeting, Abstract # not yet assigned. Indianapolis, Indiana.


  6. Wagner, C.*, P.C. Lippert, P. Stassen, E. Thomas, and R.P. Speijer. September 2018. Magnetofossil, magnetic particle, and microfossil assemblages in a subtropical coastal environment: Environmental change across the Paleocene-Eocene Thermal Maximum. International Conference on Magnetotactic Bacteria, Poster #7. Kanazawa, Japan. Poster.


  7. Jackson, M.D., and 10 co-authors. April 2018. ICDP SUSTAIN drilling at Surtsey Volcano: A time-lapse drill core record and hydrothermal borehole observatory in basalt 50 years after eruption. EGU General Assembly, Abstract EGU2018-11324. Vienna, Austria. Talk.


  8. Ran, Z., D.B. Jiang, G. Ramstein, Z.S. Zhang, P.C. Lippert, and E.T. Yu. April 2018. From Eocene to present day, the northward drift of the Tibetan plateau as a key factor for understanding East Asian climate. EGU General Assembly, Abstract EGU2018-12608. Vienna, Austria. Talk.


  9. Egger, L.M., A. Bahr, O. Friedrich, P.A. Wilson, R.D. Norris, T.E. van Peer*, P.C. Lippert, D. Liebrand, and J. Pross. April 2018. Sea-level and surface-water change in the western North Atlantic across the Oligocene-Miocene Transition: A playnological perspective from IODP Site 1406 (Newfoundland margin). EGU General Assembly, Abstract EGU2018-17948. Vienna, Austria. Poster.


  10. van Hinsbergen, D.J.J., S.H. Li, P.C. Lippert, W.T. Huang^, E.L. Advokaat, and W. Spakman. March 2018. Reconstructing Greater India: Paleogeographic, kinematic, and geodynamic perspectives. 17th Symposium of Tectonics, Structural Geology, and Crystalline Geology, Contribution 144. Jena, Germany. Talk.


  11. Rymer, A.M., D. Hurley, K. Mandt, C. Bradburne, D.A. Bazylinski, P.C. Lippert, J. DiRuggiero, and J. Nunez. March 2018. Magnetofossil chains and cellular size on Earth and expectations for other planets. 49th Lunar & Planetary Science Conference. The Woodlands, TX. Talk.


  12. P.C. Lippert, G. Rea-Downing*, and M.A. Chan. January 2018. Beyond hand samples: Bringing the outcrop to the students with architectural rock slabs. 2018 Structural Geology & Tectonics Forum. Tempe, AZ. Poster.



2017

  1. Chan, M.A. and P.C. Lippert. December 2017. The confluence of science and art in educational environments. AGU Fall Meeting. New Orleans, Louisiana. Poster


  2. Rea-Downing, G*, P.C. Lippert, and M. Stearns. December 2017. Petrochronology of Granitoids in the Langshan reveals Carboniferous plutonism along the northeastern edge of the Alxa Block (NW China). AGU Fall Meeting, Abstract V13B-0380. New Orleans, Louisiana. Poster.


  3. van Hinsbergen, D.J.J., S.H. Li, P.C. Lippert, W.T. Huang^, E.L. Advokaat, and W. Spakman. December 2017. Reconstructing the paleogeography and subduction geodynamics of Greater India: How to Apply Ockham’s Razor? AGU Fall Meeting, Abstract T24E-01. New Orleans, Louisiana. Talk.


  4. Henderson, S.**, T.A. Rivera, P.C. Lippert, and B.R. Jicha. October 2017. A Quaternary record of volcanism, lakes, and seismicity in Swan Valley, Idaho. GSA Annual Meeting, Abstract 72-12. Seattle, Washington. Poster.

  5. Song, P.P.^, L. Ding, Z.Y. Li, P.C. Lippert, and Y.H. Yue. October 2017. An early bird from Gondwana: Paleomagnetism of Lower Permian lavas from northern Qiangtang (Tibet) and the geography of the Paleo-Tethys. GSA Annual Meeting, Abstract 218-8. Seattle, Washington. Talk.


  6. Wagner, C.L.* and P.C. Lippert. September 2017. Environmental change in a neritic setting before, during, and after the Paleocene-Eocene Thermal Maximum: Insights from magnetofossil and microfossil assemblages. Climate and Biotic Events of the Paleogene 2017. Snowbird, Utah. Poster.


  7. Owen Jones, G.A.*, S.M. Bohaty, R. Pancost, D. Naafs, M. Carmichael, P.C. Lippert, D. Liebrand, T.E. van Peer, U. Röhl, B.W. Romans, and P.A. Wilson. July 2017. Oligocene stratigraphy and palaeoceanography of Newfoundland margin sediment drifts (IODP Exp. 342). Urbino Summer School in Paleoclimatology. Urbino, Italy. Poster.


  8. P.C. Lippert and P.W. Reiners. July 2017. Iron in the fire: Using controlled heating experiments, high-resolution FORCs, and low-temperature remanence experiments to reveal fire’s magnetic fingerprint. The International Conference on Rock Magnetism 2017. Utrecht, The Netherlands. Poster.


  9. Zhang, R., D.B. Jiang, G. Ramstein, Z.S. Zhang, P.C. Lippert, and E.T. Yu. April 2017. The northward shift of the Tibetan Plateau as an important factor for understanding East Asian climate during the Cenozoic. EGU General Assembly. Abstract EGU2017-11924, Vienna, Switzerland. Poster.


  10. C. Wagner* and P.C. Lippert. April 2017. Relating magnetotactic bacteria and microfossil assemblages in coastal environments to environmental change before, during, and after an abrupt global warming event. Rocky Mountain GeoBiology Symposium. Golden, Colorado. Poster


  11. C. Wagner* and P.C. Lippert. February 2017. Relating magnetotactic bacteria and microfossil assemblages in coastal environments to environmental change before, during, and after an abrupt global warming event. Global Change & Sustainability Center Research Symposium. Salt Lake City, Utah. Poster



2016

  1. P.C. Lippert, V.E. Taylor*, S.M. Bohaty, C. Wagner*, C. Xuan, and P.A. Wilson. December 2016. The demise of a diverse magnetofossil assemblage across the Eocene-Oligocene Transition in a Northwest Atlantic sediment drift. AGU Fall Meeting, San Francisco, California. Invited Talk.


  2. Huang, W. P.C. Lippert, M.J. Jackson, M.J. Dekkers, Y. Zhang, J. Li, X.H. Hu., and Z.J. Guo. December 2016. Remagnetization of carbonate rocks in southern Tibet: Perspectives from rock magnetic and petrographic investigation. AGU Fall Meeting, San Francisco, California. Poster.


  3. van Peer T.E.*, C. Xuan, D. Liebrand, P.C. Lippert, and P.A. Wilson. December 2016. Astrochronology of a late Oligocene to early Miocene magnetostratigraphy from the northwest Atlantic. AGU Fall Meeting, San Francisco, California. Poster.


  4. Owen Jones, G.*, S.M. Bohaty, P.A. Wilson, P.C. Lippert, T.E. van Peer*, and D. Liebrand. November 2016. Early-to-Mid Oligocene stratigraphy and palaeoceanography of Newfoundland margin sediment drifts (IODP Exp. 342). 2016 UK IODP General Conference, Royal Geographical Society, London. Poster.


  5. Darata, R.C.**, T.A Rivera, B.R. Jicha, P.C. Lippert, and M.D. Schmitz. September 2016. 40Ar/39Ar sanidine dating and paleomagnetic analysis of the Blue Creek Flow (Yellowstone Volcanic Field). GSA Annual Meeting, Abstract 284541, Denver, Colorado. Talk.


  6. Furlong, R.V.**, T.A Rivera, B.R. Jicha, P.C. Lippert, and M.D. Schmitz. September 2016. New 40Ar/39Ar and paleomagnetic data from the Bishop Mountain Flow, Yellowstone Volcanic Field. GSA Annual Meeting, Abstract 278829, Denver, Colorado. Poster.


  7. Vincent, J.S.**, T.A Rivera, B.R. Jicha, P.C. Lippert, and M.D. Schmitz. September 2016. Lithology of the Tuff of Lyle Springs, Yellowstone Volcanic Field. GSA Annual Meeting, Abstract 283812, Denver, Colorado. Poster.


  8. Zhuang, G.S. S. Johnstone, J.K. Hourigan, P.C. Lippert, B. Ritts, A.C. Robinson, and E. Sobel. September 2016. Partitioning of crustal shortening in the northern Tibetan Plateau: Constraints from thermochronology studies. GSA Annual Meeting, Abstract 284647, Denver, Colorado. Talk.


  9. Taylor, V.E.*, P.C. Lippert, C. Xuan, S.M. Bohaty, P.A. Wilson, and D. Liebrand. August 2016. High-resolution geochemical and magnetic records from a new benchmark deep sea section across the Eocene-Oligocene transition. International Conference on Paleoceanography, Utrecht, The Netherlands. Poster.


  10. van Peer, T.E.*, C. Xuan, P.C. Lippert, P.A. Wilson, and D. Liebrand. April 2016. A northwest Atlantic environmental magnetic perspective on the Oligocene-Miocene Transition. EGU General Assembly, Abstract EGU2016-9881, Vienna, Austria. Talk.


  11. Li, Z.Y., P.C. Lippert, L. Ding, P.P. Song, Y.H. Yue, and D.J.J. van Hinsbergen. April 2016. Paleomagnetic constraints on the Mesozoic drift of the Lhasa terrane (Tibet) from Gondwana to Eurasia. EGU General Assembly, Abstract EGU2016-7012, Vienna, Austria. Talk.


2015

  1. Lippert, P.C. D.J.J. van Hinsbergen, W.T. Huang, and G. Dupont-Nivet. November 2015. A Great Greater India: A paleomagnetic perspective on the amount of Cenozoic subduction and underthrusting within the Central Himalaya. GSA Annual Meeting, Abstract 105-1, Baltimore, Maryland. Invited talk to GSA Special Nepal (Gorkha) Earthquake Session.


  2. Lippert, P.C. W.T. Huang, D.J.J. van Hinsbergen, L. Ding, Z.Y. Li, and G. Dupont-Nivet. November 2015. Lhasa’s Jurassic-to-Paleocene latitude: Implications for the Cenozoic tectonics and climate of TIbet. GSA Annual Meeting, Abstract 7-9, Baltimore, Maryland. Invited talk to Bridging Two Continents.


  3. Van Peer, T.E.*, C. Xuan, P.A. Wilson, D. Liebrand, and P.C. Lippert. April 2015. Revised Oligocene to Early Miocene magnetic stratigraphic recorded by drift sediments at Sites U1405 and U1406, IODP Expedition 342 (Newfoundland, NW Atlantic). EGU General Assembly, Abstract EGU2015-7441, Vienna, Austria. Poster.


  4. Van Peer, T.E.*, C. Xuan, P.A. Wilson, D. Liebrand, and P.C. Lippert. April 2015. Revised Oligocene to Early Miocene magnetic stratigraphic recorded by drift sediments at Sites U1405 and U1406, IODP Expedition 342 (Newfoundland, NW Atlantic). Magnetic Interactions, Leeds, United Kingdom. Poster.


2014

  1. Lippert, P.C. and P. Reiners. December 2014. Iron in the Fire: Searching for fire’s magnetic fingerprint using controlled heating experiments, high-resolution FORCs, IRM coercivity spectra, and low-temperature remanence experiments. AGU Fall Meet. Suppl. 93, Abstract GP12A-08. Talk.


  2. Huang, W.T.*, D.J.J. van Hinsbergen, M. Dekkers, E. Garzanti, G. Dupont-Nivet, P.C. Lippert, X.C. Li, M. Maffione, C. Langereis, X.M. Hu, Z.J. Guo, and P. Kapp. December 2014. Chemical remagnetization of Jurassic carbonates and a primary paleolatitude of Lower Cretaceous volcanoclastic rocks of the Tibetan Himalaya. EOS Trans. AGU Fall Meet. Suppl. 93, Abstract GP43A-3625. Poster.


  3. Van Peer, T.E.*, C. Xuan, P.A. Wilson, D. Liebrand, P.C. Lippert. November 2014 Late Oligocene to Early Miocene magnetic stratigraphy recorded by drift sediments at Site U1406, IODP Expedition 342 (Newfoundland, northwest Atlantic), UK IODP Conference, London, United Kingdom. Poster.


  4. Lippert, P.C. and P. Reiners. September 2014. Iron in the Fire. CIFAR Annual Interaction Meeting. Whistler, Canada. Talk.


  5. Huang, W.T.*, G. Dupont-Nivet, D.J.J. van Hinsbergen, P.C. Lippert, M.J. Dekkers, Z.J. Guo, X.C. Li, and X.R. Zhang. April 2014. Constraining the India-Asia collision by retrieving the paleolatitude from partially remagnetized Paleogene volcanics in the Nanmulin Basin (southern Tibet). EGU General Assembly, Abstract EGU2014-13495, Vienna, Austria. Poster.


  6. Huang, W.T.*, G. Dupont-Nivet, D.J.J. van Hinsbergen, P.C. Lippert, M.J. Dekkers, Z.J. Guo, X.C. Li, and X.R. Zhang. April 2014. Constraining the India-Asia collision by retrieving the paleolatitude from partially remagnetized Paleogene volcanics in the Nanmulin Basin (southern Tibet). Nederlands Aardwetenschappelijk Congres, Koningshof, Veldhoven, Netherlands. Talk.



2013

  1. P.C. Lippert, D.J.J. van Hinsbergen, G. Dupont-Nivet, W.T. Huang, December 2014. What can the Cretaceous-to-Present latitude history of the Lhasa terrane tell us about plate-scale deformation in the Tibetan-Himalayan Orogen? EOS Trans AGU Fall Meet. Suppl., 92, Abstract GP12A-05. Invited Talk


  2. P.C. Lippert, W.T. Huang, D.J.J. van Hinsbergen, G. Dupont-Nivet, December 2014. Why do paleomagnetic studies in Tibet lead to such disparate paleolatitude estimates? EOS Trans AGU Fall Meet. Suppl., 92, Abstract T41E-03. Invited Talk


2012

  1. van Hinsbergen, D.J.J., P.C. Lippert, G. Dupont-Nivet, N. McQuarrie, P.V. Doubrovine, W. Spakman,  and T.H. Torsvik, April 2012. The Greater India Basin hypothesis: Closing the Gap between India-Asia crustal shortening and lithospheric convergence records. Geophysical Research Abstracts 14, EGU General Assembly, Abstract EGU2012-2095. Talk


2011

  1. Lippert, P.C., G. Dupont-Nivet, D.J.J. van Hinsbergen, P.A. Kapp, and X.X. Zhao, December 2011. Timing and distribution of tectonic rotations in the Lhasa and Qiangtang terranes. EOS Trans AGU Fall Meet. Suppl., 92, Abstract T51D-2375. Poster


  2. Lippert, P.C., G. Dupont-Nivet, D.J.J. van Hinsbergen, X.X. Zhao, R.S. Coe, and P. Kapp, June 2011. The Paleogene latitude of Asia and the Proto-Tibetan plateau. Institute for Tibetan Plateau Research, Chinese Academy of Sciences, Beijing, PR China. Invited talk


2010

  1. Lippert, P.C., D.J.J. van Hinsbergen, G. Dupont-Nivet,, P. Kapp, Dec. 2010. Consensus on the Eocene latutide of Lhasa and the age of the Tethyan Himalaya-Asia collision? EOS Trans AGU Fall Meet. Suppl., 91, Abstract T33F-03. Talk


  2. Shumaker, L.**, P.C. Lippert, B.J. Darby, B.R. Ritts, and R.S. Coe, Dec. 2010. Post-Cretaceous sinistral transpression in southwest Alxa: Structural and paleomagnetic insights into the long-term slip history of the Altyn Tagh Fault. EOS Trans AGU Fall Meet. Suppl., 91, Abstract T43B-2191. Poster


  3. Lippert, P.C., G. Dupont-Nivet, D.J.J. van Hinsbergen, X.X. Zhao, R.S. Coe, and P. Kapp, Nov. 2010. The Paleogene latitude of Asia and the Proto-Tibetan plateau. Dept. of Geosciences, University of Arizona, Tucson, AZ. Invited talk


  4. Lippert, P.C., G. Dupont-Nivet, D.J.J. van Hinsbergen, X.X. Zhao, R.S. Coe, and P. Kapp, June 2010. The Paleogene latitude of Asia and the Proto-Tibetan plateau. 25th Himalaya-Karakorum-Tibet Workshop, San Francisco, CA. Talk


  5. Snell, K.E., P.C. Lippert, and J.A. Eiler, June 2010. Stable and clumped isotope analysis of Eocene Fenghuo Shan group sediments and implications for Paleoelevation estimates and carbonate diagenesis. 25 th Himalaya-Karakorum-Tibet Workshop, San Francisco, CA. Poster


  6. Zhuang, G.Z., S. Johnstone, J.K. Hourigan, P.C. Lippert, B.R. Ritts, and B.J. Darby, June 2010. Sedimentary and thermochronologic evidence for Middle to Late Miocene uplift of the northern Tibetan plateau. 25 th Himalaya-Karakorum-Tibet Workshop, San Francisco, CA. Poster


  7. Lippert, P.C., X.X. Zhao, and R.S. Coe, April 2010. The Late Paleogene latitude of Central Tibet. Utrecht-Asia Seminar: Asian Climate & Tectonics. Invited talk


  8. Dupont-Nivet, G., Lippert, P.C., van Hinsbergen, D.J.J., Meijers, M.J.M, and Kapp, P., April 2010. Paleolatitude and age of the Indo-Asia collision. EGU General Assembly, Vienna, Austria. Talk


2009

  1. Lippert, P.C., Dec. 2009. Magnetofossils as biomarkers of environmental change: A multiproxy example from the Paleocene-Eocene continental shelves of North America. EOS Trans AGU Fall Meet. Suppl., 90, Abstract GP42A-04. Invited talk


  2. Zhao, X.X., P.C. Lippert, S. Woirol**, I. Villa, S. Farnum**, R.S. Coe, C.S. Wang, H.S. Yi, Y.L. Li, L.D. Zhu, and B. Deng, Aug. 2009. New Geochronologic and Paleomagnetic Results From Mesozoic Rocks of the Qiangtang Terrane: Implications for the Pre-collisional History of the Central Northern Tibetan Plateau. 24th Himalayan-Karakorum-Tibet Workshop, Beijing, P.R. China. Talk


2007

  1. Lippert, P.C., B.D. Ritts, B.J. Darby, and R.S. Coe, Dec. 2007. New paleomagnetic results from the Alxa region of China: Implications for the long-term slip history of the Altyn Tagh fault system and strain accommodation during the Indo-Asian collision. EOS Trans AGU Fall Meet. Suppl., 88, Abstract T22C-04. Talk


  2. Lippert, P.C. and J.C. Zachos, Sept. 2007. A biogenic origin for anomalous fine-grained magnetic particles at the Paleocene-Eocene boundary at Wilson Lake, NJ. 9th International Conference on Paleoceanography, Shanghai, P.R. China. Poster


2005

  1. Lippert, P.C. and X.X. Zhao, Dec. 2005 Late Paleozoic and Mesozoic poles from Tibet: Implications for the paleogeography of the Eastern Qiangtang Terrane. EOS Trans. AGU, 86: Fall Meet. Suppl., Abstract GP11A-0006. Poster


2004

  1. Lippert, P.C., J. Zachos, S. Bohaty, and T. Quattlebaum, Dec. 2004. Rock magnetic properties across Paleocene-Eocene boundary sediments from the North Atlantic, South Atlantic, and Eastern Pacific. EOS Trans., AGU, 85: Fall Meet., Suppl., Abstract GP31B-0840. Poster


2002

  1. Tarduno, J.A., R.D. Cottrell, P Lippert, and M. Friedman. July 2002. Extreme climates recorded in the Cretaceous High Arctic. Workshop on Cretaceous Climate and Ocean Dynamics (JOI/USSAP, NSF). Florissant, CO. Poster


  2. Lippert, P.C. and J.A. Tarduno, May 2002. Magnetostratigraphy of the Early Cretaceous Sverdrup Basin (Canadian Arctic): Implications for the nature of short term Valanginian glacial episodes. National Conference for Undergraduate Research, Whitewater, WI. Talk



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